Article
Publicly Available
Frontmatter
Published/Copyright:
October 25, 2016
Published Online: 2016-10-25
Published in Print: 2016-11-1
©2016 Walter de Gruyter GmbH, Berlin/Boston
Articles in the same Issue
- Frontmatter
- In this Issue
- Full length articles
- Synthesis and characterization of polyHIPE composites containing halloysite nanotubes
- Influence of N-vynilcarbazole on the photopolymerization process and properties of epoxy-acrylate interpenetrating polymer networks
- Investigation on the application properties of epoxy resin and glass fiber in RTV mold rubber
- Modification of pristine nanoclay and its application in wood-plastic composite
- FT-IR spectroscopic and thermal study of waterborne polyurethane-acrylate leather coatings using tartaric acid as an ionomer
- The influence of bioactive additives on polylactide accelerated degradation
- Fabrication and characterization of brominated matrimid® 5218 membranes for CO2/CH4 separation: application of response surface methodology (RSM)
- Hybrid nanocomposites based on poly aryl ether ketone, boron carbide and multi walled carbon nanotubes: evaluation of tensile, dynamic mechanical and thermal degradation properties
Articles in the same Issue
- Frontmatter
- In this Issue
- Full length articles
- Synthesis and characterization of polyHIPE composites containing halloysite nanotubes
- Influence of N-vynilcarbazole on the photopolymerization process and properties of epoxy-acrylate interpenetrating polymer networks
- Investigation on the application properties of epoxy resin and glass fiber in RTV mold rubber
- Modification of pristine nanoclay and its application in wood-plastic composite
- FT-IR spectroscopic and thermal study of waterborne polyurethane-acrylate leather coatings using tartaric acid as an ionomer
- The influence of bioactive additives on polylactide accelerated degradation
- Fabrication and characterization of brominated matrimid® 5218 membranes for CO2/CH4 separation: application of response surface methodology (RSM)
- Hybrid nanocomposites based on poly aryl ether ketone, boron carbide and multi walled carbon nanotubes: evaluation of tensile, dynamic mechanical and thermal degradation properties
