Search

Your search keyword '"Linke, B"' showing total 436 results
Start Over Author "Linke, B"
436 results on '"Linke, B"'

1. Effect of alloying and microstructure on formability of advanced high-strength steels processed via quenching and partitioning

Author

Xia, P., Vercruysse, F., Celada-Casero, C., Verleysen, P., Petrov, R. H., Sabirov, I., Molina-Aldareguia, J. M., Smith, A., Linke, B., Thiessen, R., Frometa, D., Parareda, S., and Lara, A.

Subjects
Condensed Matter - Materials Science
Abstract

The article focuses on the effect of alloying and microstructure on formability of advanced high strength steels (AHSSs) processed via quenching and partitioning (Q&P). Three different Q&P steels with different combination of alloying elements and volume fraction of retained austenite are subjected to uniaxial tensile and Nakajima testing. Tensile mechanical properties are determined, and the forming limit diagrams (FLDs) are plotted. Microstructure of the tested samples is analyzed, and dramatic reduction of retained austenite fraction is detected. It is demonstrated that all steels are able to accumulate much higher amount of plastic strain when tested using Nakajima method. The observed phenomenon is related to the multiaxial stress state and strain gradients through the sheet thickness resulting in a fast transformation of retained austenite, as well as the ability of the tempered martensitic matrix to accumulate plastic strain. Surprisingly, a Q&P steel with the highest volume fraction of retained austenite and highest tensile ductility shows the lowest formability among studied grades. The latter observation is related to the highest sum of fractions of initial fresh martensite and stress/strain induced martensite promoting formation of microcracks. Their role and ability of tempered martensitic matrix to accumulate plastic deformation during forming of Q&P steels is discussed., Comment: 12 figures, 6 tables

Published
2021
Full Text
View/download PDF

4. Preface

Author

Garth, C, Aurich, JC, Linke, B, Müller, R, Ravani, B, Weber, GH, and Kirsch, B

Published
2021

7. Integrating operator information for manual grinding and characterization of process performance based on operator profile

Author

Das, J, Bales, GL, Kong, Z, and Linke, B

Subjects
Manufacturing Engineering, Mechanical Engineering, Industrial Engineering & Automation
Abstract

Due to its high versatility and scalability, manual grinding is an important and widely used technology in production for rework, repair, deburring, and finishing of large or unique parts. To make the process more interactive and reliable, manual grinding needs to incorporate "skill-based design," which models a person-based system and can go significantly beyond the considerations of traditional human factors and ergonomics to encompass both processing parameters (e.g., feed rate, tool path, applied forces, material removal rate (MRR)), and machined surface quality (e.g., surface roughness). This study quantitatively analyzes the characteristics of complex techniques involved in manual operations. A series of experiments have been conducted using subjects of different levels of skill, while analyzing their visual gaze, cutting force, tool path, and workpiece quality. Analysis of variance (ANOVA) and multivariate regression analysis were performed and showed that the unique behavior of the operator affects the process performance measures of specific energy consumption and MRR. In the future, these findings can be used to predict product quality and instruct new practitioners.

Published
2018

9. Digitalization of Human Operations in the Age of Cyber Manufacturing: Sensorimotor Analysis of Manual Grinding Performance

Author

Bales, GL, Das, J, Tsugawa, J, Linke, B, and Kong, Z

Subjects
Industrial Engineering & Automation, Manufacturing Engineering, Mechanical Engineering
Abstract

This paper presents new techniques to analyze and understand the sensorimotor characteristics of manual operations such as grinding, and links their influence on process performance. A grinding task, though simple, requires the practitioner to combine elements from the large repertoire of his or her skillset. Based on the joint gaze, force, and velocity data collected from a series of manual grinding experiments, we have compared operators with different levels of experience and quantitatively described characteristics of human manual skill and their effects on manufacturing process parameters such as cutting energy, surface finish, and material removal rate (MRR). For instance, we find that an experienced subject performs the task in a precise manner by moving the tool in complex paths, with lower applied forces and velocities, and short fixations compared to a novice. A detailed understanding of gaze-motor behavior broadens our knowledge of how a manual task is executed. Our results help to provide this extra insight, and impact future efforts in workforce training as well as the digitalization of manual expertise, thereby facilitating the transformation of raw data into product-specific knowledge.

Published
2017

10. Evaluation and systematic selection of significant multi-scale surface roughness parameters (SRPs) as process monitoring index

Author

Das, J and Linke, B

Subjects
Materials, Manufacturing Engineering, Materials Engineering, Mechanical Engineering
Abstract

The evaluation of multi-scale surface roughness parameters (SRPs) is important to solve many engineering problems (e.g. contact stress, sealing, friction) and is closely related to further fundamental problems (e.g. microbial contamination). Traditionally, surface roughness has been used as a standard for indicating process performance, such as tool wear, tool vibration etc. This paper also aims to find appropriate surface roughness parameters (SRPs) that can be used as process monitoring indices. Grade 304 stainless steel surfaces, generated by extrusion and grinding processes, were used in this study. The evaluation of different SRPs and their topography properties (such as fractal dimension) is discussed for extruded and ground surfaces. One problem with existing surface metrology is the availability of a multitude of disconnected roughness parameters. A statistical approach is presented in this paper that allows the most appropriate roughness parameters to monitor whether the intended surface quality converges to be found.

Published
2017

12. Manufacturing and sustainability of bonding systems for grinding tools

Author

Linke, B

Abstract

© 2016, German Academic Society for Production Engineering (WGP). Grinding and honing processes are quality-defining operations in the production of many modern products. Process performance and product quality are contingent on selecting the correct abrasive tool for a specific application. Thus, tools with different bonding systems are used, namely resin bonded tools, vitrified bonded tools, and metallic bonded tools. Tool manufacturers have great knowledge in the choice and intricate production of these bond types and their countless variants. Most bond systems pass through mixing, forming, pressing, heat treatment, and post-processing steps. Single-layer metallic bonds can be generated by electroplating or brazing processes. This article reviews the manufacturing of tools with different bonding systems and discusses their ingredients. Furthermore, the economic, environmental and social dimension of tool production and tool use are considered to understand sustainability issues of different bond types. The review of tool manufacturing is necessary to enable informed life cycle assessments or other sustainability analyses for grinding or honing.

Published
2016

13. Recognizing Gaze-Motor Behavioral Patterns in Manual Grinding Tasks

Author

Bales, G, Das, J, Linke, B, and Kong, Z

Subjects
Manufacturing Engineering, Nanotechnology
Abstract

This paper reports our progress in developing techniques for “parsing” raw gaze and force data from manual grinding tasks into a principled model. A grinding task, though simple, requires the practitioner to combine elements from the large repertoire of her skillset. Based on the joint, gaze, and force data collected from a series of experiments, and by extending existing scanpath methods, we develop a visualization method called Gaze-Motor Space-Time Cube (GMSTC), which can help us gain insight into the joint gaze-motor routine existing in complex manual tasks. For instance, there exists a strong correlation between the spectra of a subject's fixation and force distributions. Such insight might be hard to extract through an examination of either the gaze or the force data separately. Furthermore, by comparing data obtained from operators with different levels of skill, we are able to quantitatively describe characteristics of human manual skill. For instance, we find that an experienced subject exhibits longer fixation durations and smaller fixation variations than an intermediate one. A detailed understanding of gaze-motor behavior broadens our knowledge of how a manual task is executed. Our results help to provide this extra insight, and have implications in the way in which knowledge and manual expertise is transferred from one generation of practitioners to the next.

Published
2016

18. Effect of alloying and microstructure on formability of advanced high-strength steels processed via quenching and partitioning

Author

Xia, P. (author), Vercruysse, F. (author), Celada-Casero, Carola (author), Verleysen, P. (author), Petrov, R.H. (author), Sabirov, I. (author), Molina-Aldareguia, J. M. (author), Smith, A. (author), Linke, B. (author), Frometa, D. (author), Xia, P. (author), Vercruysse, F. (author), Celada-Casero, Carola (author), Verleysen, P. (author), Petrov, R.H. (author), Sabirov, I. (author), Molina-Aldareguia, J. M. (author), Smith, A. (author), Linke, B. (author), and Frometa, D. (author)

Abstract

The article focuses on the effect of alloying and microstructure on formability of advanced high strength steels (AHSSs) processed via quenching and partitioning (Q&P). Three different Q&P steels with different combination of alloying elements and volume fraction of retained austenite are subjected to uniaxial tensile and Nakajima testing. Tensile mechanical properties are determined, and the forming limit diagrams (FLDs) are plotted. Microstructure of the tested samples is analyzed, and dramatic reduction of retained austenite fraction is detected. It is demonstrated that all steels are able to accumulate much higher amount of plastic strain when tested using Nakajima method. The observed phenomenon is related to the multiaxial stress state and strain gradients through the sheet thickness resulting in a fast transformation of retained austenite, as well as the ability of the tempered martensitic matrix to accumulate plastic strain. Surprisingly, a Q&P steel with the highest volume fraction of retained austenite and highest tensile ductility shows the lowest formability among studied grades. The latter observation is related to the highest sum of fractions of initial fresh martensite and stress/strain induced martensite promoting formation of microcracks. Their role and ability of tempered martensitic matrix to accumulate plastic deformation during forming of Q&P steels is discussed., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., Team Maria Santofimia Navarro, Team Kevin Rossi

Published
2022
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results