- Table of Contents
- Recycling of Polyurethane Foams - Knovel
- Glycolysis process for polyurethane waste recycling.
- This item appears in the following Collection(s)
Promotional Toolkit. Engineering Data Module Beta.
Table of Contents
This Reference is not available in your current subscription. Notify your administrator of your interest. The book can aid practitioners in understanding the basis of polymer degradation and its relationship with industrial processes, which can be of substantial value to industrial complexes the world over. The main pathways of polymer recycling via different routes and industrial schemes are detailed, covering all current techniques, including regrinding, rebinding, adhesive pressing and compression moulding of recovered PU materials that are then compared with depolymerization approaches.
The book examines life cycle assessment and cost analysis associated with polyurethane foams waste management, showing the potential of various techniques.
Recycling of Polyurethane Foams - Knovel
This book will help academics and researchers identify and improve on current depolymerization processes, and it will help industry sustainability professionals choose the appropriate approach for their own waste management systems, thus minimizing the costs and environmental impact of their PU-based end products. Show less. View More. Back to Table of Contents. Kent, Robin.
Open Share Save. Click here to Expand all. Click here to Collapse all. View Section, Front Matter. View Section, Table of Contents. View Section, 1.
Glycolysis process for polyurethane waste recycling.
Introduction to Polymer and Their Recycling Techniques. View Section, 2. Polyurethane Foam Chemistry.
View Section, 3. Degradability of Polymers. View Section, 4.
Furthermore, at each curing age the specimens of lightweight white cement pastes showed relatively lower properties as compared to the conventional white cement paste and as the polyurethane waste content increased, the properties in terms of compressive strength and bulk density decreased while the total porosity percentage increased especially at higher ratios. On the other hand, the effects of styrene—butadiene rubber latex and irradiation dose on the properties of irradiated polymer impregnated lightweight white cement composites have been investigated.
- Algebraic Homotopy;
- 1st Edition.
- Change Everything: Creating an Economy for the Common Good!
- Recycling of Polyurethane Foams;
- How to Beat Up Anybody: An Instructional and Inspirational Karate Book by the World Champion.
- Recycling of Polyurethane Foams - 1st Edition?
- Script guide!
The results confirmed that the impregnation of the hardened lightweight white cement pastes with styrene—butadiene rubber latex and their exposure to different doses of gamma rays 50, , , and kGy showed a gradual improvement in the mechanical and physical properties up to kGy and then started to decrease at kGy. The full text of this article hosted at iucr.
If you do not receive an email within 10 minutes, your email address may not be registered, and you may need to create a new Wiley Online Library account. If the address matches an existing account you will receive an email with instructions to retrieve your username. Magdy M. Read the full text. Tools Request permission Export citation Add to favorites Track citation. Share Give access Share full text access.
This item appears in the following Collection(s)
Share full text access. Please review our Terms and Conditions of Use and check box below to share full-text version of article.
senjouin-renshu.com/wp-content/20/2684-espiar-cualquier-telefono.php Early View Online Version of Record before inclusion in an issue. Related Information. Close Figure Viewer. Browse All Figures Return to Figure.