Your search keyword '"Z. Kramárová"' showing total 3 results

1. Poly(vinyl alcohol)–collagen hydrolysate thermoplastic blends: II. Water penetration and biodegradability of melt extruded films

Author

Patrizia Cinelli, Pavol Alexy, Emo Chiellini, Z. Kramárová, Dušan Bakoš, Markéta Julinová, Jaromír Hoffmann, and Gabriela Crkoňová

Subjects

Vinyl alcohol, Materials science, Absorption of water, Aqueous solution, Polymers and Plastics, Organic Chemistry, Biodegradation, Polyvinyl alcohol, Hydrolysate, Hydrolysis, chemistry.chemical_compound, chemistry, Chemical engineering, Organic chemistry, Solubility

Abstract

Water solubility of polyvinyl alcohol (PVA) is related to degree of hydrolysis, molecular weight and modification during blending in the presence of other processing additives. In the present paper the effect of collagen hydrolysate (CH), an abundant waste product of the leather industry, and glycerol on PVA water sensitivity has been investigated. This study is a continuation of the previous research on experimental design optimisation of PVA-collagen hydrolysate blends (P. Alexy, D. Bakos, S. Hanzelova, L. Kukolikova, J. Kupec, K. Charvatova, E. Chiellini, P. Cinelli, Polymer Testing 2003, 22 doi:10.1016/S0142-9418(03)00016-3) . CH content affects water penetration into the prepared blown films, affecting therefore their solubility. An increasing content of CH in PVA based blends shortens the time to the first disruption of the film after immersing in water, restraining the negative effect of glycerol on solubility. Water penetration into film is influenced by both added components—glycerol and CH, and mutual effects depend upon their proportional amounts in the blends. Pure PVA film presented limited biodegradation at low temperature (5 °C). The CH addition in the blend significantly increases biodegradation rate at that temperature. PVA/CH blends properties are of practical relevance for applications as hospital laundry bags and containers of water-soluble substances, such as chemical agents for treatment of waste and potable water, fertilizers, washing agents, sanitary products, etc.

Published

2003

2. Biopolymers as fillers for rubber blendsPaper presented as part of an issue containing papers from the Polymeric Materials for Automotive conference held in Bratislava, May 2005.

Author

Z. Kramárová, P. Alexy, I. Chodák, E. Špirk, I. Hudec, B. Košíková, A. Gregorová, P. Šúri, J. Feranc, P. Bugaj, and M. Ďuračka

Subjects

BIOPOLYMERS, POLYMERIC composites, RUBBER, VULCANIZATION, PHYSICAL & theoretical chemistry, CHEMICAL kinetics, BUTADIENE

Abstract

Polymeric materials from renewable resources have been tested as additives for rubber blends and vulcanisates. Their influence on the vulcanisation process, tensile strength properties and dynamical‐mechanical properties has been studied and compared with silica. The corn starch, collagen hydrolysate, corn protein and various types of lignin have been added to natural and styrene butadiene rubber in order to find convenient fillers for rubber blends which are able to modify the properties of rubber products. Correlation between Wolf activity coefficient and mechanical properties of vulcanisates is discussed. Copyright © 2007 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2007

3. Arsenic and selenium interactive effect on alga Desmodesmus quadricauda.

Author

Kramárová Z, Fargašová A, Molnárová M, and Bujdoš M

Subjects

Arsenic toxicity, Chlorophyta drug effects, Selenium toxicity, Water Pollutants, Chemical toxicity

Abstract

Substances known to be toxic in one-component solutions often exhibit unexpected effects when present in mixtures. Only a few efforts have been made to assess the effect of As-Se mixture in algae or plants in general. Due to the lack of information on this topic, the aim of this study was to examine the As-Se interactive effect in the alga species Desmodesmus quadricauda. The initial density of algal cells was 1.9×10(4), cultures were permanently illuminated (70μEm(-2)s(-1)) and As and Se adverse effect was expressed as EC (effective concentration) value. For all experiments three EC (EC(10), EC(20), EC(50)) values for both metalloids were used: for As 26.20, 29.05, 35.38mg L(-1) and for Se 1.93, 3.65, 12.24mg L(-1), respectively. During this study algal biomass growth, lipid peroxidation and protein-bound thiol content parameters were used to assess the As-Se interactions. The reciprocal effect of the elements on their uptake by the alga was also determined. The As-treated algae supplemented with Se exhibited impaired growth indicating a synergistic interaction between the two elements. In samples treated with As-Se mixture, the total algal As content showed marked increase depending on the Se concentration in the mixture. Se uptake was also positively affected by rising As concentrations in the mixture. Consequently, the As-Se-treated algae experienced greater damage to membranes, evidenced by marked elevation of the TBARS (thiobarbituric acid reactive substances) content. The TBARS content increased to a maximum level by 29.05mg L(-1) of As and 3.65mg L(-1) of Se, which was around 70 percent higher than that of the control. The thiol content was very close to that of the control treatment over the entire concentration range and for all As and Se combinations tested. Possible explanation for the synergism observed in D. quadricauda, is that the elevated uptake of As and Se upon their interaction and impaired antioxidant system, has added to the toxicity of the elements., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012