Your search keyword '"MANUFACTURING PROCESS"' showing total 12,928 results

1. Knowledge graph-driven decision support for manufacturing process: A graph neural network-based knowledge reasoning approach

Author

Su, Chang, Jiang, Qi, Han, Yong, Wang, Tao, and He, Qingchen

Published

2025

2. Monitoring of cyanogenic compounds behavior during the manufacturing process of sweetened bean paste

Author

Ito, Rie, Kikuchi, Ayaka, Ishibashi, Airi, Kai, Tsuyoshi, Terashima, Akira, Iwasaki, Yusuke, Taguchi, Takaaki, Fukiwake, Tomohide, Tsutsumi, Tomoaki, Imamura, Tomoaki, and Akiyama, Hiroshi

Published

2024

3. Analysis of magnetic properties degradation following industrial impregnation process of electrical steel laminations

Author

Helbling, H., Van Gorp, A., Benabou, A., Tounzi, A., Boughanmi, W., and Laloy, D.

Published

2022

4. Structural Design and Key Manufacturing Process Analysis of Factory Joints in 500kV Submarine Cable

Author

Jing, Bibo, Qin, Zihang, Wang, Lei, Zhai, Haoqi, Ni, Yulin, Hou, Junping, Tao, Xiantao, Zhang, Shize, Gong, Hui, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Yang, Qingxin, editor, and Li, Jian, editor

Published

2025

5. Joining 1.1‐ and 2.1‐mm Al Sheets by Friction Stir Spot Welding.

Author

Abdullah, Isam Tareq, Mejbel, Mohanad Kadhim, Al-Filfily, Ammar A. H., and Tridello, Andrea

Subjects

FRICTION stir welding, WELDED joints, JOINING processes, SPOT welding, MANUFACTURING processes

Abstract

This study used friction stir spot welding (FSSW) to weld 1.1‐ and 2.1‐mm AA6061‐T6 sheets at 560, 710, 900, and 1120 rpm at a fixed dwell duration of 5 s. It was determined how much heat was supplied into the FSSW, and the cycle temperature that occurred throughout the FSSW technique was carefully documented. Both the sheet metals and the formed FSSW weldments were subjected to micro and macrostructure analysis, as well as a lap shear test and a hardness test. A scanning electron microscope (SEM) was also used to study the cracked surfaces. A broad variety of rotation rates, ranging from 560 to 1120 rpm, were used to construct error‐free spot joints, as shown by the macroanalysis. The microstructural results may show acceptable mechanical characteristics of FSSW joints, which pertain to the grain refinement of the joints' stir zone (SZ). It was discovered that the optimal welding condition for establishing spot welds with varying thicknesses of thin sheets was 710 rpm. This was achieved with a SZ lap shear resistance of 5020 ± 20 N and hardness of 99 ± 2 HV(100). The temperature fluctuation and Von Mises stress distribution, in the AA6061‐T6 FSSW sheets, were analysed by using ABAQUS/CAE 2021 software. The simulated peak temperature is rather similar to the recorded one. On the other hand, by raising the rotation speed, the peak temperature at the welded joints rose. The friction stir welding (FSW) procedures have an impact on the residual stresses; on the other hand, the welding parameters are influenced by the welding temperature and mixing. [ABSTRACT FROM AUTHOR]

Published

2025

6. 3D printed artificial coral reefs: design and manufacture.

Author

Pham, Loan Thi and Huang, Jie Yi

Subjects

CORAL reefs & islands, ARTIFICIAL reefs, LIFE sciences, RESTORATION ecology, CORALS

Abstract

Copyright of Low-Carbon Materials & Green Construction is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

7. Enhancing impact resistance of fiber‐reinforced polymer composites through bio‐inspired helicoidal structures: A review.

Author

Xu, Yaxing and Feng, Dianshi

Subjects

*MANUFACTURING processes, *BIOMATERIALS, *EVIDENCE gaps, *IMPACT loads, *CARBON fibers

Abstract

Highlights One of the primary limitations of fiber‐reinforced polymer composites, particularly carbon fiber, is their low impact resistance. Helicoidal structures, inspired by natural biological materials, are created by rotating each layer at a small angle through the thickness, forming a staircase pattern. These structures have been used as microstructure models to improve impact resistance in composite laminates. This paper provides a comprehensive review of recent progress in the impact resistance of bio‐inspired helicoidal laminates (BIHL). The review begins with an introduction to typical microstructural characteristics of helicoidal architectures, including single‐ and double‐twisted Bouligand structures. The impact damage mechanisms specific to BIHL are then elucidated, particular emphasis is placed on key parameters that affect impact performance, including different forms of helicoidal structures, constituent materials and impact factors. Furthermore, a critical discussion is conducted to highlight the advantages and limitations of manufacturing processes tailored for high‐volume production of BIHL. Finally, after identifying research gaps in the current literature, future directions for BIHL in design, fabrication and application are presented. This review may serve as a practical guide for engineers and researchers interested in developing polymer composite laminates that are highly resistant to impact loads. Helicoidal structures significantly enhance the impact resistance of composites. The damage pattern and mechanisms of BIHL are identified and summarized. Key parameters influencing the impact behavior of BIHL are discussed in detailed. The advantages and limitations of manufacturing processes for BIHL are examined Contemporary challenges and future research directions for BIHL are outlined. [ABSTRACT FROM AUTHOR]

Published

2024

8. HYBRID DYNAMIC ANALYSIS OF THE MANUFACTURING PROCESS OF LIGHTWEIGHT BRICKS.

Author

Flores, B., Rodriguez, L., Silva, U., and Loyo, J.

Subjects

*MANUFACTURING processes, *HYBRID computer simulation, *INDUSTRIAL capacity, *SYSTEM dynamics, *RAW materials

Abstract

In this study, the hybrid simulation approach was adapted using the System Dynamics methodology to characterize continuous and discrete variables in the lightweight brick manufacturing process. Vensim® software was used to evaluate the effects of delays in production flows at specific time intervals, and the continuous impact of variability in the stages of the process was established. The results demonstrate that carrying out a continuous evaluation of the input flow of raw material does not impact the accumulation of material. However, when assessing the monitoring of delay times in a discrete approach, there is a direct impact on batch formation and production capacity fulfilment, resulting in an 8.54 % increase. In conclusion, it is crucial to not only characterize the variables but also to assess their impact using an overarching indicator, such as production capacity, rather than focusing solely on subsequent stages. This comprehensive approach enables strategic decision-making to identify areas of opportunity within the process. [ABSTRACT FROM AUTHOR]

Published

2024

9. Data Digitization in Manufacturing Factory Using Palantir Foundry Solution.

Author

Krajný, Peter, Janeková, Jaroslava, and Fabianová, Jana

Subjects

MANUFACTURING processes, AUTOMOBILE industry, MANUFACTURING industries, INTERNATIONAL business enterprises, DIGITIZATION

Abstract

This research describes an online solution for the collection and processing of production data, which are gathered from manufacturing and assembly processes at automotive companies. The solution describes the process for live monitoring of the production health and then evaluation through reports, with the option to generate reports for up to six months. Since the data are located in multiple sources, it is challenging to monitor them live or generate reports on demand. The solution described in this research outlines applications that simplify users' tasks and provide immediate insights into the processes and health of production lines. Research will be divided into three applications which are delivered in one package, which is called Cycle Time Deviation (CTD): (i) workshop application for live monitoring; (ii) for evaluating data older than 24 h, the shift report application; and (iii) for comparing and monitoring the impact of process changes on the analysis, the before and after application—the Plant Improvement Tracker (PIT)—will be presented. The aim of the research is to describe the proposed solution that was implemented in a multinational automotive corporation and to outline the benefits gained from the implementation. [ABSTRACT FROM AUTHOR]

Published

2024

10. HAIPO: Hybrid AI Algorithm-Based Post-Fabrication Optimization for Modern 3D NAND Flash Memory.

Author

Kim, Myungsuk

Subjects

MACHINE learning, EVOLUTIONARY algorithms, DEEP learning, TURNAROUND time, PROCESS optimization

Abstract

To successfully meet the various requirements of modern storage systems, NAND flash memory should be highly optimized by precisely tuning a huge number of internal operating parameters. Although 3D NAND flash memory succeeds in increasing the capacity of storage systems, its complex architecture and unique error behavior make such optimization a more difficult and time-consuming process during NAND manufacturing. In this paper, we introduce HAIPO, a novel methodology for post-fabrication optimization of NAND flash memory, which is an essential step in the manufacturing process of modern 3D NAND flash memory to simultaneously meet various requirements on reliability, performance, yield, etc. HAIPO is based on simple machine-learning approaches that consist of (i) a lightweight deep-learning (DL) model to generate initial device parameters and (ii) an evolutionary algorithm (EA) to explore device parameters automatically. To more effectively explore device parameters, we introduce three key guidelines for each generation in the EA: (1) domain-specific rules, (2) recent optimization results, and (3) online Bayesian simulation, respectively, to enable quick optimization for a huge number of device parameters within the limited product turnaround time (TAT). In addition, we integrate two optimization modules with HAIPO to improve optimization efficiency even in environments with severe process variation. We demonstrate the feasibility and effectiveness of HAIPO using real 320 3D TLC/QLC NAND flash chips, showing significant performance and reliability improvements by up to 8.8% and 12% on average, respectively, within a quite limited optimization TAT. [ABSTRACT FROM AUTHOR]

Published

2024

11. Mechanism of green and knowledge process toward minimizing innovation risks: A direct and configuration approach.

Author

Alam, Sajjad, Zhang, Jianhua, Khan, Naveed, and Dandan, Wen

Subjects

MANUFACTURING process management, SUSTAINABILITY, ORGANIZATIONAL learning, STRUCTURAL equation modeling, KNOWLEDGE management

Abstract

Due to a significant reduction in the availability and standard of natural resources, numerous firms are claiming to implement environmentally sustainable practices. This research constructs and validates green variables within the knowledge management (KM) process, drawing on resource‐based views (RBV) and organizational learning theory. It aims to explain how manufacturing firms minimize innovation risk. The author followed a combined methodology of Smart partial least squares structural equation modeling (PLS‐SEM) and fuzzy set qualitative comparative analysis (fsQCA). Primary response data were collected from industry experts and literature studies to develop items for the knowledge aptitude model to decrease innovation risk (KMIR). The mixed variables of the KM and green process were validated through the fsQCA technique. The outcome of PLS‐SEM showed a positive connection between certain green variables to minimize innovation risk. fsQCA examines the combined approach of green implementation and KM practice; the finding indicated significant connections between green variables and the KM process to KMIR. This study can be measured as innovative in the KMIR field, as it has validated and developed its constructs based on primary data. It can help scholars and industry experts acquire a head start in the KMIR field, and this mechanism will assist with the investigation of the green variables and knowledge domain, providing an outline for future studies. [ABSTRACT FROM AUTHOR]

Published

2024

12. Recent advances in design and preparation of bioceramic materials for manufacturing dental crowns by vat photopolymerization.

Author

Osama, Adel, Fouda, Noha, and Eraky, Mohamed T.

Abstract

The most durable and acceptable tooth-colored crown material should have good physical, and mechanical properties, chemical resistance, biocompatibility, and aesthetic behavior. The most common materials for artificial crowns are metals, polymers, and ceramics. Ceramics have better mechanical properties than polymers and better aesthetic properties than metals. Still, because of the ceramic excessive brittleness, it is not advisable to manufacture dental crowns by conventional manufacturing methods such as formative and subtractive due to some drawbacks in the previous types of manufacturing such as material wastage, and high complexity that conventional manufacturing methods can’t achieve. So additive manufacturing methods attract the interest of researchers in dental ceramics. The most common additive manufacturing method is vat photopolymerization in which ceramic slurry is accurately prepared and then introduced into a 3d printing machine under the control of the vat photopolymerization process performance parameters then the printed part is introduced into the heat treatment process then we characterize the manufactured part to conform its performance with the required properties of the product. Then cost analysis is done to estimate the cost of manufactured dental crowns. Overall, the design of dental crowns for manufacturing is helpful for dental manufacturers. [ABSTRACT FROM AUTHOR]

Published

2024

13. Pressing of Hybrid Composites in Drone Manufacture.

Author

Reznichenko, V. I. and Kalyagin, M. Yu.

Abstract

The pressing of hybrid composites with specified properties best meeting the needs of pilotless aircraft (drones) is considered. The proposed model of this process adequately reflects the proportions of the components in the composite and the pressing conditions (pressure, polymerization temperature, and holding time). On the basis of experiments, the characteristics of the hybrid composite (containing glass and carbon fibers) are expressed as a function of the proportion of carbon fibers and the influence of the pressing conditions on the properties of the material is established. [ABSTRACT FROM AUTHOR]

Published

2024

14. Recent advances in design and preparation of bioceramic materials for manufacturing dental crowns by vat photopolymerization

Author

Adel Osama, Noha Fouda, and Mohamed T. Eraky

Subjects

Dental crowns, Vat photopolymerization, Manufacturing process, Design for manufacturing, Slurry preparation, Science (General), Q1-390

Abstract

Abstract The most durable and acceptable tooth-colored crown material should have good physical, and mechanical properties, chemical resistance, biocompatibility, and aesthetic behavior. The most common materials for artificial crowns are metals, polymers, and ceramics. Ceramics have better mechanical properties than polymers and better aesthetic properties than metals. Still, because of the ceramic excessive brittleness, it is not advisable to manufacture dental crowns by conventional manufacturing methods such as formative and subtractive due to some drawbacks in the previous types of manufacturing such as material wastage, and high complexity that conventional manufacturing methods can’t achieve. So additive manufacturing methods attract the interest of researchers in dental ceramics. The most common additive manufacturing method is vat photopolymerization in which ceramic slurry is accurately prepared and then introduced into a 3d printing machine under the control of the vat photopolymerization process performance parameters then the printed part is introduced into the heat treatment process then we characterize the manufactured part to conform its performance with the required properties of the product. Then cost analysis is done to estimate the cost of manufactured dental crowns. Overall, the design of dental crowns for manufacturing is helpful for dental manufacturers. Graphical abstract

Published

2024

15. Design of scalable manufacturing process for the production of biodegradable polymeric microneedles for protein transdermal drug delivery

Author

M. S. Zolotareva, V. V. Churikov, A. V. Panov, and S. A. Kedik

Subjects

polymeric microneedles, dissolving microneedles, microneedle patch, drug delivery, protein delivery, manufacturing process, human serum albumin, Pharmaceutical industry, HD9665-9675

Abstract

Introduction. Dissolving polymeric microneedles are attractive drug delivery system especially for vaccine delivery. Still there are a lot of obstacles in developing scalable manufacturing process of them.Aim. To develop a scalable manufacturing process for producing polymeric dissolving microneedles, which can enable keeping protein activity during manufacturing process.Materials and methods. Microneedles were produced from aqua solution of 20 % w.v. pullulan and 3 % w.v. polyvinyl alcohol by casting in hollow negative polyethylene terephthalate mold. Human serum albumin was chosen as a model protein for this investigation.Results and discussion. There were chosen the mode of mold filling and microneedle drying process, which can guarantee keeping of protein activity during manufacturing process.Conclusion. The designed technology can be easily scaled up and used for producing vaccine drug delivery systems, because it doesn’t contain any restraining processes.

Published

2024

16. Magnetic Resonance Imaging (MRI) of Spanish Sheep Cheese: A Study on the Relationships between Ripening Times, Geographical Origins, Textural Parameters, and MRI Parameters.

Author

Segura, José, Fernández-Valle, María Encarnación, Cruz-Díaz, Karen Paola, Romero-de-Ávila, María Dolores, Castejón, David, Remiro, Víctor, and Cambero, María Isabel

Subjects

MAGNETIC resonance imaging, MANUFACTURING processes, DIFFUSION coefficients, REGRESSION analysis, SHEEP

Abstract

The evolution of structural changes and the textural features during the ripening process of four varieties of Spanish sheep cheese were studied using Magnetic Resonance Imaging (MRI). Specifically, longitudinal (T1) and transverse (T2) relaxation times and apparent diffusion coefficient maps were analyzed. Also, proton density was used to improve the description of the structure of the cheeses. The MRI results displayed important information about cheese matrix structure, associated with different manufacturing processes (industrial vs. traditional), ripening times (RTs, from 2 to 180 days), and geographical origins. A significant interaction between RT and cheese variety related to the variations in physicochemical and textural parameters was found. Linear regression models were developed per the abundant literature. Logarithmic regression models showed the highest R2 when monitoring the dependency on T1 and T2 parameters of water content, water activity, RT, and some texture parameters. Therefore, these results support that MRI is a useful technology to monitor the ripening process, predict textural behavior and physicochemical variables, and characterize the structure of different varieties of sheep cheese. [ABSTRACT FROM AUTHOR]

Published

2024

17. Banked Primary Progenitor Cells for Allogeneic Intervertebral Disc (IVD) Therapy: Preclinical Qualification and Functional Optimization within a Cell Spheroid Formulation Process.

Author

Jeannerat, Annick, Peneveyre, Cédric, Jaccoud, Sandra, Philippe, Virginie, Scaletta, Corinne, Hirt-Burri, Nathalie, Abdel-Sayed, Philippe, Martin, Robin, Applegate, Lee Ann, Pioletti, Dominique P., and Laurent, Alexis

Subjects

*LUMBAR pain, *INTERVERTEBRAL disk, *BIOLOGICAL products, *TECHNICAL specifications, *PROGENITOR cells

Abstract

Background/Objectives: Biological products are emerging as therapeutic management options for intervertebral disc (IVD) degenerative affections and lower back pain. Autologous and allogeneic cell therapy protocols have been clinically implemented for IVD repair. Therein, several manufacturing process design considerations were shown to significantly influence clinical outcomes. The primary objective of this study was to preclinically qualify (chondrogenic potential, safety, resistance to hypoxic and inflammatory stimuli) cryopreserved primary progenitor cells (clinical grade FE002-Disc cells) as a potential cell source in IVD repair/regeneration. The secondary objective of this study was to assess the cell source's delivery potential as cell spheroids (optimization of culture conditions, potential storage solutions). Methods/Results: Safety (soft agar transformation, β-galactosidase, telomerase activity) and functionality-related assays (hypoxic and inflammatory challenge) confirmed that the investigated cellular active substance was highly sustainable in defined cell banking workflows, despite possessing a finite in vitro lifespan. Functionality-related assays confirmed that the retained manufacturing process yielded strong collagen II and glycosaminoglycan (GAG) synthesis in the spheroids in 3-week chondrogenic induction. Then, the impacts of various process parameters (induction medium composition, hypoxic incubation, terminal spheroid lyophilization) were studied to gain insights on their criticality. Finally, an optimal set of technical specifications (use of 10 nM dexamethasone for chondrogenic induction, 2% O2 incubation of spheroids) was set forth, based on specific fine tuning of finished product critical functional attributes. Conclusions: Generally, this study qualified the considered FE002-Disc progenitor cell source for further preclinical investigation based on safety, quality, and functionality datasets. The novelty and significance of this study resided in the establishment of defined processes for preparing fresh, off-the-freezer, or off-the-shelf IVD spheroids using a preclinically qualified allogeneic human cell source. Overall, this study underscored the importance of using robust product components and optimal manufacturing process variants for maximization of finished cell-based formulation quality attributes. [ABSTRACT FROM AUTHOR]

Published

2024

18. 内覆不锈钢双金属复合热煨弯管开发.

Author

赵志伟, 吴亚军, 白福良, 郭立萍, and 高秋胜

Subjects

CARBON steel, MANUFACTURING processes, LAMINATED metals, PIPE manufacturing, STAINLESS steel

Abstract

Copyright of Steel Pipe is the property of Steel Pipe Magazine and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

19. Carbon Emission Accounting Model of Three-Stage Mechanical Products for Manufacturing Process.

Author

Wang, Minjie, Wu, Yuanbo, and Wang, Bin

Abstract

Carbon accounting is critical to manufacturing and achieving a low-carbon transition and lean carbon management. A comprehensive understanding of carbon emissions in manufacturing is essential to calculate a product's carbon footprint accurately. Based on the life cycle assessment (LCA) method, this study divides the whole process of mechanical products from parts to finished products into three stages: parts (P), assembly (A), and testing (T). By decomposing each stage's carbon emission sources and combining each stage's characteristics, a series of corresponding carbon emission accounting models is established. Finally, the three-stage carbon emission model of the manufacturing process of a three-piece ball valve is established, and the validity and feasibility of the proposed model are verified. The results show that raw material consumption, energy consumption, and transportation are the primary sources of carbon emissions in the manufacturing process of three-piece ball valves, accounting for 35.6%, 38.8%, and 17.6%, respectively. The corresponding carbon emissions were 17.854 kgCO2e, 19.405 kgCO2e, and 8.8 kgCO2e, respectively. Through these results, we can provide some theoretical and data support for the low-carbon transformation of manufacturing enterprises as well as some research ideas for realizing low-carbon production through process planning and shop scheduling. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effects of boiling, centrifuging and drying methods on bioactive compounds in Antarctic krill meal.

Author

Yang, Liu, Zheng, Yao, Zhang, Shuaishuai, Wang, Xin, and Guo, Quanyou

Subjects

*EUPHAUSIA superba, *MONOUNSATURATED fatty acids, *UNSATURATED fatty acids, *MICROWAVE drying, *BIOACTIVE compounds, *ASTAXANTHIN

Abstract

Summary: Boiling, centrifuging and various drying techniques (vacuum freeze‐drying (VFD), vacuum drying (VD), hot‐air drying (HAD) and microwave drying (MWD)) were assessed for their impact on bioactive compounds in Antarctic krill meal. A comparison between the raw and boiling groups revealed a significant degradation and isomerisation of astaxanthin, accompanied by a 1.25‐fold and 1.32‐fold increase in saturated (SFAs) and monounsaturated fatty acids (MUFAs), respectively. Drying was the primary factor responsible for the reduction in phospholipids, α‐tocopherol and polyunsaturated fatty acid (PUFAs), in combination with the increase in thiobarbituric acid‐reactive substances. For different drying methods, it was found that HAD induced severe lipid oxidation. In contrast, the VFD, VD and MWD improved lipid quality, reducing thiobarbituric acid‐reactive substances (TBARS) by 13–22% and increasing phospholipids by 1.08–1.11 times compared to HAD. VD preserved higher levels of bioactive compounds. PLS‐DA analysis identified 13‐cis‐astaxanthin, α‐tocopherol and eleven fatty acids as key indicators for Antarctic krill meal. [ABSTRACT FROM AUTHOR]

Published

2024

21. Advancement in the Modeling and Design of Composite Pressure Vessels for Hydrogen Storage: A Comprehensive Review.

Author

Bouhala, Lyazid, Karatrantos, Argyrios, Reinhardt, Heiner, Schramm, Norbert, Akin, Beril, Rauscher, Alexander, Mauersberger, Anton, Taşkıran, Senagül Tunca, Ulaşlı, Muhammed Erdal, Aktaş, Engin, and Tanoglu, Metin

Subjects

STRUCTURAL health monitoring, MOLECULAR dynamics, MANUFACTURING processes, STRUCTURAL dynamics, MATERIAL fatigue, HYDROGEN storage

Abstract

The industrial and technological sectors are pushing the boundaries to develop a new class of high-pressure vessels for hydrogen storage that aim to improve durability and and endure harsh operating conditions. This review serves as a strategic foundation for the integration of hydrogen tanks into transport applications while also proposing innovative approaches to designing high-performance composite tanks. The goal is to offer optimized, safe, and cost-effective solutions for the next generation of high-pressure vessels, contributing significantly to energy security through technological advancements. Additionally, the review deepens our understanding of the relationship between microscopic failure mechanisms and the initial failure of reinforced composites. The investigation will focus on the behavior and damaging processes of composite overwrapped pressure vessels (COPVs). Moreover, the review summarizes relevant simulation models in conjunction with experimental work to predict the burst pressure and to continuously monitor the degree of structural weakening and fatigue lifetime of COPVs. Simultaneously, understanding the adverse effects of in-service applications is vital for maintaining structural health during the operational life cycle. [ABSTRACT FROM AUTHOR]

Published

2024

22. A Deep Reinforcement Learning Approach to Injection Speed Control in Injection Molding Machines with Servomotor-Driven Constant Pump Hydraulic System.

Author

Ren, Zhigang, Tang, Peng, Zheng, Wen, and Zhang, Bo

Subjects

DEEP reinforcement learning, MOLD control, MARKOV processes, MANUFACTURING processes, PRODUCT quality

Abstract

The control of the injection speed in hydraulic injection molding machines is critical to product quality and production efficiency. This paper analyzes servomotor-driven constant pump hydraulic systems in injection molding machines to achieve optimal tracking control of the injection speed. We propose an efficient reinforcement learning (RL)-based approach to achieve fast tracking control of the injection speed within predefined time constraints. First, we construct a precise Markov decision process model that defines the state space, action space, and reward function. Then, we establish a tracking strategy using the Deep Deterministic Policy Gradient RL method, which allows the controller to learn optimal policies by interacting with the environment. Careful attention is also paid to the network architecture and the definition of states/actions to ensure the effectiveness of the proposed method. Extensive numerical results validate the proposed approach and demonstrate accurate and efficient tracking of the injection velocity. The controller's ability to learn and adapt in real time provides a significant advantage over the traditional Proportion Integration Differentiation controller. The proposed method provides a practical solution to the challenge of maintaining accurate control of the injection speed in the manufacturing process. [ABSTRACT FROM AUTHOR]

Published

2024

23. A comprehensive survey of recent research on profile data analysis.

Author

Liu, Peiyao, Xu, Haijie, and Zhang, Chen

Subjects

CALCULUS of tensors, DEEP learning, BIG data, FUNCTIONAL analysis, RESEARCH personnel

Abstract

Nowadays advanced sensing technology enables high-resolution in-process data collection in various systems, known as profile data. These data facilitate in-process monitoring and anomaly detection, which have been extensively studied in recent years. This paper conducts a comprehensive survey on the recent literature for profile modeling and monitoring, including linear profiles, nonlinear profiles, spatial profiles, multi-stage profiles, profile network data, and partially observable profiles, covering techniques such as functional data analysis, tensor analysis, deep learning, etc. By summarizing the developments and challenges associated with the reviewed papers, this paper aims to provide researchers and practitioners with a valuable resource for understanding the latest research advances. [ABSTRACT FROM AUTHOR]

Published

2024

24. Manufacturing Process of Low‐Contamination Titanium Foam as Implant Material for Cranioplasty Based on Replica Technique.

Author

Quadbeck, Peter, Jehring, Ulrike, Böhm, Hans-Dietrich, Füssel, Alexander, and Standke, Gisela

Subjects

MANUFACTURING processes, DIMETHYL sulfoxide, TITANIUM, PRODUCTION methods, METALS

Abstract

The article investigates the development of a manufacturing route for highly porous titanium foams suitable for craniofacial surgery applications, particularly in cranioplasties. The study focuses on the polyurethane replication method for foam production and emphasizes reducing residual gas content, as it significantly affects the mechanical properties and suitability for approval of the foams. Various factors such as starting materials, solvent debinding, heating schedules, and hydrogen atmosphere are analyzed for their impact on residual gas content. It is shown that significant reductions in residual gas content can only be achieved by reworking each step of the process. A combination of initial solvent debinding of the PU template with dimethyl sulphoxide, reduction of suspension additives, use of coarser Gd. 1 powders, and an integrated debinding and sintering process under partial hydrogen atmosphere achieves a significant reduction in residual gas content. This way, the potential for producing titanium foams that comply with relevant standards for craniofacial implants is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

25. Assessment of Residual Stress Behavior and Material Properties in Steels Produced via Oxynitrocarburized Metal Injection Molding.

Author

Medeiros, Jorge Luis Braz, Biehl, Luciano Volcanoglo, Martins, Carlos Otávio Damas, de Jesus Pacheco, Diego Augusto, de Souza, José, and Reguly, Afonso

Subjects

INJECTION molding of metals, AUSTENITIC stainless steel, RESIDUAL stresses, MANUFACTURING processes, DIFFUSION kinetics

Abstract

By combining the formability of injection-molded polymers with a wide range of metal options, metal injection molding (MIM) allows for manufacturing metallic components with small dimensions and complex geometries. However, steels produced through this process often exhibit higher porosity compared to conventional methods. This article aims to fill this gap by developing a thermochemical oxynitrocarburizing treatment cycle applied to the austenitic stainless steel Catamold 316L. The developed treatment analyzes the diffusion kinetics, mechanical properties, and metallurgical behavior. The oxynitrocarburizing treatment was carried out at a temperature of 570 °C for varying durations of 30, 60, and 120 min. The findings showed that surface microhardness significantly increased, and corrosion resistance improved due to the ceramic behavior of the Epsolon composite and the formation of magnetite, compared to the sintered material. The study reveals a substantial rise in residual compressive stresses of up to − 2790 MPa on the sample surface. The residual stress values and the elevated surface microhardness are highly beneficial for improving the tribological properties of Catamold 316L steel produced by the MIM process. The study suggests that using ionic oxynitrocarburizing in salt baths presents an alternative to plasma processes for treating Catamold 316L steel, providing improved diffusion of nitrogen and carbon. [ABSTRACT FROM AUTHOR]

Published

2024

26. Towards industry 5.0: evolving the product-process matrix in the new paradigm.

Author

Jiménez-Partearroyo, Montserrat, Medina-López, Ana, and Juárez-Varón, David

Subjects

FLEXIBLE manufacturing systems, TECHNOLOGICAL innovations, ORIGINALITY, MASS customization, MANUFACTURING processes

Abstract

The Hayes-Wheelwright Product-Process Matrix (PPM) has historically been a pivotal tool in manufacturing, guiding firms to strategically align product volume and variety with the most optimal production process. Delving into its developmental journey, this research thoroughly examines the PPM's evolution through the industrial eras. From the outset of Industry 2.0, marked by the adoption of Flexible Manufacturing Systems prioritizing mass customization, to the inception of Industry 4.0, characterized by a seamless integration of digital and physical systems with a pronounced focus on tailored products, the matrix has consistently adapted. The main findings of this work underline the imperative to reconceptualize the PPM within the context of Industry 5.0. Building on this foundation, a new model is here proposed to represent the PPM matrix in the Industry 5.0 environment that incorporates creative and technological innovation and the concept of sustainability. This entails a fusion of cutting-edge technological developments, urgent sustainability considerations, and the unyielding deep human insights. The proposed matrix (PPM 5.0) maps each product to the most suitable production process and guides companies in selecting processes that align with sustainable objectives. Furthermore, it provides a flexible foundation designed to readily adapt to evolving market demands, technological advancements, and emerging trends in manufacturing, offering substantial benefits to practitioners and business owners in their strategic design decisions and technology investments. To achieve these insights, a qualitative methodology is employed, grounded in an exhaustive review of the extant literature, thereby ensuring a holistic and informed perspective on the future trajectory of industrial practices. [ABSTRACT FROM AUTHOR]

Published

2024

27. SUPPLY CHAIN MANAGEMENT OF MANUFACTURING PROCESSES USING MACHINE LEARNING TECHNIQUE

Author

Marcel ILIE and Augustin SEMENESCU

Subjects

supply chain management, manufacturing process, machine learning, probability, neural networks, bayesian statistics, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The expansion of the manufacturing processes network requires algorithms that can enable better planning and optimization of the manufacturing processes. Therefore, in the recent years the developments within the machine-learning (ML) and artificial intelligence (AI) have led to a new terminology, the so-called Industry 4.0. The fastest growth of Industry 4.0 has been encountered in the manufacturing, supply chain, services and products. The machine learning is prone to enable the development of smart supply-chains and manufacturing processes. The present research concerns the suitability and efficiency of the machine learning algorithm for the enhanced supply chain in manufacturing processes. The results show that the machine learning algorithm enables and enhances the efficiency of the manufacturing processes by clustering the machine-tools and increasing the number of manufactured components at the same tool location.

Published

2024

28. Development of Printed Pouch Film and Flexible Battery.

Author

Oh, Gyeongseok, Mantry, Snigdha Paramita, Sim, Jae Ho, Cho, Hyeon Woo, Won, Mijin, Park, Hwamok, Park, Jiyoung, Lee, Juhwan, and Kim, Dong Soo

Subjects

ELECTRIC vehicle batteries, ELECTRIC vehicles, SURFACE preparation, POLYMER films, MANUFACTURING processes

Abstract

This study investigates the properties of various adhesives and assesses the effects of the coating and drying conditions of aluminum surface treatment agents on adhesion strength and chemical resistance. The adhesion between aluminum and the polymer film is improved through the application of a surface treatment agent to the aluminum surface. This study examines the initial adhesive strength of a manufactured pouch film with respect to the drying temperature and time and evaluates its adhesive strength in the presence of moisture. The results indicate that the residual moisture on the aluminum surface weakens the adhesive strength and significantly affects electrolyte resistance. A noticeable reduction in strength was observed after water spraying, when the drying temperature and time were relatively low during the initial strength measurement. Among the adhesives used for aluminum and CPP lamination, olefin adhesives exhibit less susceptibility to electrolyte effects and have higher adhesive strengths compared to urethane and ester adhesives. Leveraging these characteristics, flexible pouch cells were manufactured and their stability was evaluated. The results confirm that the flexible cells demonstrate excellent stability, exhibiting potential for application in wearable devices. [ABSTRACT FROM AUTHOR]

Published

2024

29. Development of an Image Processing Application for Element Detection in a Printed Circuit Board Manufacturing Cell.

Author

Trejo-Morales, Antonio, Bautista-Ortega, Milton, Barriga-Rodríguez, Leonardo, Cruz-González, Celso Eduardo, and Franco-Urquiza, Edgar Adrián

Subjects

CIRCUIT board manufacturing, PRINTED circuit manufacturing, MANUFACTURING cells, INDUSTRIAL robots, IMAGE processing, DIGITAL image processing, PRINTED circuit design

Abstract

Industrial automation in the manufacturing environment has revolutionized production and manufacturing in many industries, generating significant improvements in efficiency, quality, and process effectiveness. However, it has also posed challenges related to feedback in manufacturing environment monitoring systems, and increasing the effectiveness, productivity, and quality in industrial production. Feedback systems in the manufacturing environment are fundamental to industrial automation, which is why an application has been developed for the detection of elements in a printed circuit board manufacturing cell. The solution presented in this article proposes implementing a continuous feedback system with the ability to provide real-time information to identify the location of elements in a manufacturing cell and potentially detect anomalies, with the goal of improving the manufacturing process appropriately. [ABSTRACT FROM AUTHOR]

Published

2024

30. Rovers with Rocker-Bogie Mechanisms: A review of progress and innovations in design, manufacturing, and control.

Author

Rajath, S, Shivakumar, ND, and Pradhan, Kushal Shekhar

Abstract

Rovers equipped with Rocker-Bogie mechanisms have emerged as pivotal assets in the domains of interplanetary and terrain exploration. To carry out scientific investigations, Rovers have undergone significant advancements. This review comprehensively examines the progress and innovations associated with the design, manufacturing, and control of these robotic systems. The Rocker-Bogie Mechanism and its kinematic variations available are identified and discussed. Given the importance of kinematic studies, viewpoints on wheel-terrain interaction and framework models for analyses are presented. A key limitation in the analyzed papers was the restriction of choice of design process to the conventional method for which, an approach to design through a Generative Design algorithm has been indicated. The studies indicated the material choice of Titanium and other alloys, the manufacturing choice of Additive Manufacturing which has been analyzed, for which suggestions for advancements and alternatives are highlighted. It was observed that a standard and general procedure to automate the operations of the rovers is still lacking. This review can provide a guide for new advancements in Rocker-Bogie-based rovers. [ABSTRACT FROM AUTHOR]

Published

2024

31. An overview of dental glass–ceramics: From material design to the manufacturing process.

Author

Jiang, Yongfang, Zhang, Changbo, Xu, Jie, Xu, Jiamin, Zhan, Xue‐Qing, Ma, Ning, and Tsai, Fang‐Chang

Subjects

GLASS-ceramics, MANUFACTURING processes, DENTAL ceramics, CERAMIC materials, HEAT treatment, DENTAL materials

Abstract

As a subserie of the dental ceramic material family, glass–ceramics are favored for their excellent aesthetic properties. The feasibility of current commercially available dental glass–ceramics applications has been proven, while the assurance and development of more functional properties for them are still being explored. Effective utilization of various modification mechanisms by adjusting the chemical composition and microstructure is essential to improve the mechanical properties, aesthetic properties, and other properties such as biocompatibility of dental restorative materials. Among them, the mechanical properties of restorations should take into account the mechanical properties of glass ceramics and the final restoration (restoration and tooth set) in the mechanical behavior. This paper provides an overview of the chemical composition design, classification of microstructure, property requirements, and strengthening methods applied to dental glass–ceramics, including ion exchange, chain effects, heat treatment modulation, and strengthening mechanisms. In addition, research on traditional hot pressing, subtractive manufacturing, and newly developed additive manufacturing in glass–ceramics are systematically presented. Finally, the tendency of dental glass–ceramics was forecasted by analyzing the relationship between glass–ceramic composition, process, and mechanical properties. [ABSTRACT FROM AUTHOR]

Published

2024

32. Enhancing hardness in SMAW welded joints with low-frequency vibration assistance: an experimental and analytical study.

Author

Ranjan, Rajeev, Jha, Sanjay Kumar, and Kumar, Ajay

Subjects

*SHIELDED metal arc welding, *WELDED joints, *HARDNESS, *WELDING, *MILD steel, *ELECTRIC welding

Abstract

AbstractVibration assisted welding has gained popularity over the years for creating high quality welds and achieving better mechanical properties. The main objective of this research is to use low frequency vibration-assisted welding to optimise the process parameters. This study uses a novel vibratory technique to vibrate the workpiece during shielded metal arc welding at frequencies ranging from 0 to 100 Hz in order to examine the hardness of mild steel plates butt-welded to a thickness of 5 mm. Taguchi Methodology has been applied to optimise the hardness of welded specimens by varying the input variables viz. Current, vibration duration, and vibration frequency. Additionally, the microstructure of welded mild steel plates has been studied using SEM, optical micrographs, and XRD analysis. Results indicated that a low heat input of 80 Amp frequency of vibration of 100 Hz, and duration of vibration of 100 sec demonstrated optimum performance in terms of hardness of welded MS plates. Frequency of vibration has been found to be the most important parameter determining the hardness of the welded joint. Maximum hardness of 97.1643RHN has been found at optimal parameters. As the weld pool is being excited, vibration-assisted welded butt joints exhibit a finer grain structure, suggesting higher hardness values. [ABSTRACT FROM AUTHOR]

Published

2024

33. Sustainable Innovation in Ceiling: Exploring the Environmental Benefits of a New Plaster–Rock Wool Layered Recycled Composite.

Author

Álvarez, Manuel, Ferrández, Daniel, Guijarro-Miragaya, Patricia, and Morón, Carlos

Subjects

WOOL, FLEXURAL strength, CONSTRUCTION & demolition debris, COST analysis, PERLITE, SUSTAINABLE architecture

Abstract

This paper presents a new layered plaster-based material for building purposes. First, a new manufacturing machine was designed to make the elaboration process easier. This manufacturing machine and the way it works are described. In this study, perlite and recycled glass wool (RGW) were added to traditional plaster with the aim of improving the performance of this material. Two series (with and without perlite) and three different layer configurations were developed and assessed. Recycled glass wool layered materials were subjected to both physical and mechanical characterisation to determine their suitability for precast elaboration. The addition of perlite resulted in a significant improvement in flexural strength. Moreover, the addition of RGW also gave rise to extra flexural strength when added. The two-layered samples performed better than the one-layered samples. Mechanical properties increased up to 75% when both the perlite and RGW layers were added. Potential Global Warming Potential (GWP 100) savings were also analysed, reporting up to 49% savings. A complementary cost analysis was performed, aimed at establishing potential savings in production costs; thus, 13–57% potential cost savings were reported. After that, a comparative analysis within the literature was conducted to contextualise the results obtained in this study. [ABSTRACT FROM AUTHOR]

Published

2024

34. The Effect of Process Parameters on the Microstructure, Stability, and Sensorial Properties of an Emulsion Cream Formulation.

Author

Chow, Pui Shan, Lim, Ron Tau Yee, Cyriac, Febin, Shah, Jaymin C., Badruddoza, Abu Zayed Md, Yeoh, Thean, Yagnik, Chetan Kantilal, Tee, Xin Yi, Wong, Annie Bao Hua, Chia, Vernissa Dilys, and Wang, Guan

Subjects

*MICROSTRUCTURE, *MANUFACTURING processes, *ROBUST optimization, *PRODUCT quality, *HIGH temperatures

Abstract

A classical emulsion formulation based on petrolatum and mineral oil as the internal phase with emulsifier wax as a typical topical emulsion cream was investigated for the effect of process parameters on drug product quality and performance attributes. The Initial Design of Experiment (DoE) suggested that an oil phase above 15%, coupled with less than 10% emulsifying wax, resulted in less stable emulsions. Different processing parameters such as homogenization speed, duration, cooling rate, and final temperature showed minimal influence on properties and failed to improve stability. The final DoE suggested that the optimal emulsion stability was achieved by introducing a holding period midway through the cooling stage after solvent addition. Within the studied holding temperature range (25–35 °C), a higher holding temperature correlated with increased emulsion stability. However, the application of shear during the holding period, using a paddle mixer, adversely affected stability by disrupting the emulsion microstructure. IVRT studies revealed that the release of lidocaine was higher in the most stable emulsion produced at a holding temperature of 35 °C compared to the least stable emulsion produced at a holding temperature of 25 °C. This suggests that a holding temperature of 35 °C improves both the stability and active release performance. It appears that a slightly higher holding temperature, 35 °C, allows a more flexible and stable emulsifying agent film around the droplets facilitating stabilization of the emulsion. This study offers valuable insights into the relationship between process parameters at various stages of manufacture, microstructure, and various quality attributes of emulsion cream systems. The knowledge gained will facilitate improved design and optimization of robust manufacturing processes, ensuring the production of the formulations with the desired critical quality attributes. [ABSTRACT FROM AUTHOR]

Published

2024

35. 石英湿法腐蚀及谐振器制作工艺研究.

Author

龙雪松

Abstract

Copyright of Piezoelectrics & Acoustooptics is the property of Piezoelectric & Acoustooptic and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

36. Investigation on the Torsional–Flexural Instability Phenomena during the Bending Process of Hairpin Windings: Experimental Tests and FE Model Validation.

Author

Mangeruga, Valerio, Barbieri, Saverio Giulio, Giacopini, Matteo, Giuradei, Fabrizio, Vai, Piermaria, and Gerada, Chris

Subjects

ELECTRIC motors, MODEL validation, POWER density, ELECTRON impact ionization

Abstract

Modern electric motors developed for the automotive industry have an ever higher power density with a relatively compact size. Among the various existing solutions to improve torque and power density, a reduction in the dimensions of the end-windings has been explored, aiming to decrease volume, weight, and losses. However, more compact end-windings often lead to complex shapes of the conductors, especially when preformed hairpin windings are considered. The rectangular cross-section of hairpin conductors makes them prone to deviating out of the bending plane during the forming process. This phenomenon, known as torsional–flexural instability, is influenced by the specific aspect ratio of the cross-section dimensions and the bending direction. This study focuses on understanding this instability phenomenon, aiming to identify a potential threshold of the cross-section aspect ratio. The instability makes it difficult to predict the final geometry, potentially compromising the compliance with the geometric tolerances. A finite element model is developed to analyse a single planar bend in a hairpin conductor. Various cross-section dimensions with different aspect ratios are simulated identifying those that experience instability. Moreover, an experimental campaign is conducted to confirm the occurrence of instability by testing the same single planar bending. The experimental data obtained are used to validate the finite element model for the tested dimensions. The aim is to provide designers with a useful tool to select hairpin geometries that are more suitable for the folding process, contributing to successful assembly and improving the overall design process of preformed hairpin conductors. [ABSTRACT FROM AUTHOR]

Published

2024

37. Combating Alcohol Adduct Impurity in Immunosuppressant Drug Product Manufacturing: A Scientific Investigation for Enhanced Process Control.

Author

Sekar, Vasanthakumar, Vedhachalam, Devarajan, VB, ArunKumar, Sivaraman, Sivananthan, Janakarajan, Venkatakrishnan, Sethuraman, Sai, Shiroor, Sandeep G., and Geoffroy, Jean-Marie M.

Subjects

*DRUG factories, *FISHBONE diagrams, *HYDROXY acids, *TACROLIMUS, *DNA adducts, *ROOT formation

Abstract

Objective: This research aims to elucidate critical impurities in process validation batches of tacrolimus injection formulations, focusing on identification and characterization of previously unreported impurity at RRT 0.42, identified as the tacrolimus alcohol adduct. The potential root causes for the formation of new impurity was determined using structured risk assessment by cause and effect fishbone diagram. The primary objective was to propose mitigation plan and demonstrate the control of impurities with 6 month accelerated stability results in development batches. Methods: The investigation utilizes method validation and characterization studies to affirm the accuracy of quantifying the tacrolimus alcohol adduct. The research methodology employed different characterization techniques like rotational rheometer, ICP‒MS, MALDI-MS, 1H NMR, 13C NMR, and DEPT-135 NMR for structural elucidation. Additionally, the exact mass of the impurity is validated using electrospray ionization mass spectra. Results: Results indicate successful identification and characterization of the tacrolimus alcohol adduct. The study further explores the transformation of Tacrolimus monohydrate under various conditions, unveiling the formation of Tacrolimus hydroxy acid and proposing the existence of a novel degradation product, the Tacrolimus alcohol adduct. Six-month data from development lots utilizing Manufacturing Process II demonstrate significantly lower levels of alcohol adducts. Conclusions: Manufacturing Process II, selectively locates Tacrolimus within the micellar core of HCO-60, this prevent direct contact of ethanol with Tacrolimus which minimizes impurity alcohol adduct formation. This research contributes to the understanding of tacrolimus formulations, offering ways to safeguard product integrity and stability during manufacturing and storage. [ABSTRACT FROM AUTHOR]

Published

2024

38. 天燃气重型商用车制造工艺技术流程研究.

Author

贾存泰, 郑亚运, 张栋梁, 魏紫鹏, 马伟光, and 高林

Abstract

Copyright of Automobile Technology & Material is the property of Automobile Technology & Material Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

39. 普洱生茶加工过程中非挥发性成分的变化.

Author

李文婷, 范晓伟, 易伦朝, 胡永丹, and 任达兵

Abstract

Copyright of Journal of Chinese Institute of Food Science & Technology / Zhongguo Shipin Xuebao is the property of Journal of Chinese Institute of Food Science & Technology Periodical Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

40. System Dynamics in Manufacturing Processes Modelling and Analysis

Author

Litwin, Paweł, Szymusik, Anna, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Machado, Jose, editor, Soares, Filomena, editor, Antosz, Katarzyna, editor, Cagáňová, Dagmar, editor, Manupati, Vijaya Kumar, editor, and Pereira, Alejandro, editor

Published

2024

41. Discussing Key Aspects of Industry 5.0 in Teaching Factories: Manufacturing Processes Level

Author

Papacharalampopoulos, Alexios, Korfiati, Annamaria, Stavropoulos, Panagiotis, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Thiede, Sebastian, editor, and Lutters, Eric, editor

Published

2024

42. Monitoring of cyanogenic compounds behavior during the manufacturing process of sweetened bean paste

Author

Rie Ito, Ayaka Kikuchi, Airi Ishibashi, Tsuyoshi Kai, Akira Terashima, Yusuke Iwasaki, Takaaki Taguchi, Tomohide Fukiwake, Tomoaki Tsutsumi, Tomoaki Imamura, and Hiroshi Akiyama

Subjects

Critical control point (CCP), Risk management, Sweetened bean paste, Post-column HPLC, Conway dish, Manufacturing process, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

To ensure food safety, food business operators must eliminate or reduce hazardous factors in manufacturing processes by implementing effective process controls. Since some beans are known to contain cyanogenic compounds, their distribution and use are permitted only as a raw bean paste material. Therefore, from the perspective of Hazard Analysis and Critical Control Points (HACCP), the purpose of this study is to demonstrate the validity of establishing CCPs and to determine the cyanogenic compounds in intermediate products for effectively managing hazardous substances in the manufacturing process. The previously reported method, post-column HPLC with fluorescence detection, was used for determine cyanogenic compounds in CCPs.While free cyanide ions were only detected at CCP#1, cyanoglycoside analysis was crucial throughout the manufacturing process. Results indicated a decrease in cyanoglycoside concentration as manufacturing progressed, with levels below 10 ppm in the final product. Notably, cyanoglycosides decreased significantly during the shibukiri process (soaking, boiling, and discarding water). The concentration of cyanogenic compounds in raw beans were below the regulated 500 ppm, and the concentrations in the final product were below regulated 10 ppm. In conclusion, it was found that proposed method is very useful for HACCP management to monitor the decrease of cyanide compounds in the manufacturing process.

Published

2024

43. Insights into 'Yin Rhyme': Analysis of nonvolatile components in Tieguanyin oolong tea during the manufacturing process

Author

Qiuming Li, Qingcai Hu, Xiaoxi Ou, Jihang He, Xinru Yu, Yunzhi Hao, Yucheng Zheng, and Yun Sun

Subjects

Camellia sinensis, Oolong tea, “Yin Rhyme”, Manufacturing process, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Tieguanyin (TGY) is renowned for its distinctive “Yin Rhyme” flavor. To elucidate the underlying formation mechanism, we conducted sensory evaluations, electronic tongue analysis, and widely-targeted metabolomics. Our sensory evaluations and electronic tongue results indicated that TGY exhibits a thick and mellow taste profile, contributing to the “Yin Rhyme” flavor. Metabolomics analysis of tea products revealed that TGY shows significantly higher concentrations of umami substances (L-glutamate, L-theanine) and bitter substances (valine, catechins) compared to Jinguanyin (JGY). Additionally, metabolomic analysis during different oolong tea processing stages revealed significant differences in 21 substances, including L-glutamate, L-theanine, valine, and catechins, between fresh leaves of both varieties. These substances exhibited distinct fluctuation patterns during processing, indicating that the cultivar plays a crucial role in developing the “Yin Rhyme” flavor, which was enhanced throughout processing. This study provides a theoretical foundation for understanding the formation of the unique “Yin Rhyme” flavor of TGY.

Published

2024

44. Industrial design change task allocation method for complex product manufacturing based on implementation intention matching

Author

Yiwei SUN, Yidan QIAO, Jianghao XIAO, and Dengkai CHEN

Subjects

design change, task allocation, industrial design, manufacturing process, implementation intention, Engineering machinery, tools, and implements, TA213-215, Mechanical engineering and machinery, TJ1-1570

Abstract

Industrial design change task refers to the task resulting from industrial design schemes changing processes due to manufacturing needs in complex product development. In order to make full use of the experience generated in design design change, this paper proposes an industrial design change task allocation method based on implementation intention. Based on the action stage model, the connotation of the implementation intention of industrial design tasks is proposed. Based on the state of the design change, the design team and design task model are constructed through the Extenics theory. A quantitative model of implementation intention and an evaluation method for generalization are constructed. The similarity between the design tasks and the support of the design team for the design tasks are quantified and calculated by the complex network. For change design tasks other than design activities, the collaborative filtering algorithm is improved to achieve design team recommendations based on task similarity. In the process of collaborative filtering, the relationship between tasks is considered, and the time loss caused by the propagation of tasks among different teams is evaluated to improve the effectiveness of the task allocation scheme. Take the change in the internal facility manufacturing requirements of the intelligent cabin as an example. Compared to the design process before applying this method, the task load of design teams was reduced by 18.74 %, which proved this method can support industry design change problems.

Published

2024

45. Manufacturing Process of Straddle Monorail Beam-switching Turnout

Author

Hang ZHOU, Rui JING, and Jinghao LI

Subjects

straddle monorail, beam-switching turnout, manufacturing process, Transportation engineering, TA1001-1280

Abstract

[Objective] Due to the diverse components, complex internal structures, and significant deformation risks of straddle monorail beam-switching turnout, issues such as improper component installation, welding-induced thermal deformation, and stress concentration may arise during the manufacturing process, leading the products failure in meeting the required design quality. Therefore, it is necessary to conduct a systematic study on the manufacturing process of the straddle monorail beam-switching turnout. [Method] The overview of straddle monorail beam-switching turnout is presented. The structural characteristics and material properties of the straddle monorail beam-switching turnout are analyzed. Targeted research is conducted on manufacturing challenges, process route planning, process design, fixture design, and other aspects. A set of manufacturing processes suitable for the straddle monorail beam-switching turnout is proposed, and the implementation effects of the proposed manufacturing process are verified. [Result & Conclusion] The adopted fixture frame and welding process can control the dimensional accuracy of each component within the design requirements. Coupled with vibration aging treatment, it effectively improves the distribution state of structural stress and reduces the risk of residual deformation after welding, so as to ensure that the linear dimensions of the turnout meet the standards after assembly.

Published

2024

46. Optimization of Selective Laser Melting Process for Maraging 300 Steel: Investigation the Impact of Parameters on Porosity, Microstructure, and Mechanical Properties

Author

Orhun Arslan, Ari, Ali, Bayram, Ali, and Konukçu, Tolga

Published

2024

47. Investigation of conventional and ultrasonic vibration-assisted turning of hardened steel using a coated carbide tool.

Author

Ghule, Govind S., Sanap, Sudarshan, Chinchanikar, Satish, Cep, Robert, Kumar, Ajay, Bhave, Suresh Y., Kumar, Rakesh, and Altarazi, Faisal

Subjects

CARBIDE cutting tools, ULTRASONICS, STEEL, CUTTING tools, ULTRASONIC equipment, ULTRASONIC welding

Abstract

This study compares conventional turning (CT) and ultrasonic vibration-assisted turning (UVAT) in machining hardened AISI 52100 steel (62 HRC) with a PVDcoated TiAlSiN carbide tool. UVAT experiments, utilizing an ultrasonic frequency of 20 kHz and vibration amplitude of 20 µm, varied the cutting speed, feed, and depth of cut. Remarkably, UVAT reduced tool wear, extending tool longevity. Surprisingly, power consumption showed no significant differences between CT and UVAT. Mathematical models based on experimental data highlight the substantial impact of the cutting speed on tool wear, followed closely by the depth of cut. For power consumption, the depth of cut took precedence, with the cutting speed and feed rate playing pronounced roles in UVAT. This emphasizes the potential for further research on machinability, particularly exploring different vibration directions on the tool in feed, tangential, and radial aspects. [ABSTRACT FROM AUTHOR]

Published

2024

48. Navigating uncertain distribution problem: a new approach for resolution optimization of transportation with several objectives under uncertainty.

Author

Joshi, Vishwas Deep, Sharma, Medha, Kumar, Ajay, Cepova, Lenka, Kumar, Rakesh, and Dogra, Namrata

Subjects

STOCHASTIC programming, PROBLEM solving, FRACTIONAL programming, SUPPLY chains, MANUFACTURING industries

Abstract

Amidst uncertainty, decision-making in manufacturing becomes a central focus due to its complexity. This study explores complex transportation constraints and uses novel ways to guide manufacturers. The Multi-objective Stochastic Linear Fractional Transportation Problem (MOSLFTP) is a crucial tool for managing supply chains, manufacturing operations, energy distribution, emergency routes, healthcare logistics, and other related areas. It adeptly addresses uncertainty, transforming efficiency and effectiveness in several domains. Stochastic programming is the process of converting theoretical probabilities into concrete certainties. The artistic compromise programming technique acts as a proficient mediator, reconciling opposing objectives and enabling equitable decision-making. This novel approach also addresses the Multi-objective Stochastic Linear plus Linear Fractional Transportation Problem (MOSLPLFTP), which involves two interconnected issues. The effectiveness of these principles is clearly shown with the help of the LINGO® 18 optimization solver. This study uses a ranking method to compare the similar methods to solve the current problems. A meticulously designed example acts as a significant achievement, shedding light on our method in a practical setting. It serves as a distinctive instrument, leading manufacturers through the maze of uncertainty and assisting them in determining the most advantageous course of action. This journey involves subtle interactions between complexity and simplicity, uncertainty is overcome by decisiveness, and invention is predominant. [ABSTRACT FROM AUTHOR]

Published

2024

49. Impact of the Curing Temperature on the Manufacturing Process of Multi-Nanoparticle-Reinforced Epoxy Matrix Composites.

Author

Parente, João M., Simoes, Rogério, Silva, Abilio P., and Reis, Paulo N. B.

Subjects

*MANUFACTURING processes, *EPOXY resins, *CURING, *CARBON nanofibers, *NANOPARTICLES, *TEMPERATURE effect

Abstract

This study aims to analyze the effect of the curing temperature of nano-reinforcements during the manufacturing process on the mechanical properties of composites involving graphene (GNP), carbon nanofibers (CNFs), and a hybrid mixture of these two nanoparticles. In this context, the type of nanoparticles, their content, their type of resin, and their hybridization were considered. The results showed that both nanoparticles increased the viscosity of the resin suspension, with an increase of between 16.3% and 38.2% for GNP nanoparticles and 45.4% and 74% for CNFs depending on the type of resin. Shrinkage was also affected by the addition of nanoparticles, as the highest results were obtained with GNP nanoparticles, with a 91% increase compared with the neat resin, and the lowest results were obtained with CNFs, with a decrease of 77% compared with the neat resin. A curing temperature of 5 °C promoted the best bending and hardness performance for all composites regardless of the type of resin and reinforcement used, with improvements of up to 24.8% for GNP nanoparticles and 13.52% for CNFs compared with the neat resin at 20 °C. Hybridization led to further improvements in bending properties and hardness compared with single-reinforcement composites due to a synergistic effect. However, the effectiveness of hybridization depends on the type of resin. [ABSTRACT FROM AUTHOR]

Published

2024

50. Microbiological Analysis of Manufacturing Processes and Microbial Hazard Assessment of Quality and Safety of Commercial Salted Shrimp (Saeu-jeot).

Author

Jeong, Jiyoun, Lee, Heeyoung, Yu, Hwan Hee, Kim, Jong-Chan, Park, Sunhyun, and Shim, You-Shin

Subjects

*MANUFACTURING processes, *COLIFORMS, *RISK assessment, *SHRIMPS, *VIBRIO parahaemolyticus, *STAPHYLOCOCCUS aureus, *SALINE waters

Abstract

The objective of this study was to evaluate the microbiological properties of commercially available traditional Korean salted shrimp (Saeu-jeot) and to analyze the effects of saltwater immersion and ultraviolet (UV) irradiation on the reduction of Staphylococcus aureus in Saeu-jeot. A microbiological analysis was conducted across 56 commercially available Saeu-jeot samples from the Korean, Chinese, and Vietnamese markets. The microbiological analysis revealed no presence of Escherichia coli, coliforms, or Vibrio parahaemolyticus in any commercial samples. The total viable count and S. aureus were 3.8 ± 0.4 and 0.6 ± 0.3 log CFU/g, respectively. An investigation of the procedures conducted on Saeu-jeot samples at various production stages by Hazard Analysis Critical Control Point (HACCP)-certified companies demonstrated the substantial relevance of the raw material (tiny shrimp) on S. aureus counts. In order to reduce S. aureus in Saeu-jeot, saltwater immersion and UV irradiation treatments were applied, which reduced the S. aureus counts by 1.4 log CFU/g and 0.3 log CFU/g, respectively, and S. aureus's efficacy was limited to the food's surface. These results suggest that a co-treatment of saltwater immersion and UV irradiation could be effective in reducing S. aureus. The maintenance of hygienic handling and cleanliness are essential in the modern manufacturing processes of Saeu-jeot. [ABSTRACT FROM AUTHOR]

Published

2024