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008190320s2019 enk ob 000 0 eng d
019 ▼a 1090060607 ▼a 1090386886 ▼a 1090518803
020 ▼a 9781527530652 ▼q (electronic bk.)
020 ▼a 1527530655 ▼q (electronic bk.)
020 ▼z 1527527964
020 ▼z 9781527527966
035 ▼a 2084269 ▼b (N$T)
035 ▼a (OCoLC)1090281252 ▼z (OCoLC)1090060607 ▼z (OCoLC)1090386886 ▼z (OCoLC)1090518803
040 ▼a YDX ▼b eng ▼e pn ▼c YDX ▼d N$T ▼d EBLCP ▼d N$T ▼d UKAHL ▼d OCLCF ▼d OCLCQ ▼d 248032
049 ▼a MAIN
050 4 ▼a TS875
072 7 ▼a TEC ▼x 040000 ▼2 bisacsh
08204 ▼a 674.83 ▼2 23
1001 ▼a Askadskii?, A. A. ▼q (Andrei? Aleksandrovich), ▼e author.
24510 ▼a Structure and Properties of Wood-Polymer Composites (WPC) / ▼c by Andrey Askadskii [and 4 others]. ▼h [electronic resource]
260 ▼a Newcastle upon Tyne : ▼b Cambridge Scholars Publishing, ▼c 2019.
300 ▼a 1 online resource
336 ▼a text ▼b txt ▼2 rdacontent
337 ▼a computer ▼b c ▼2 rdamedia
338 ▼a online resource ▼b cr ▼2 rdacarrier
504 ▼a Includes bibliographical references.
5050 ▼a Intro; Table of Contents; Chapter One; 1.1. Short description of WPC; 1.2. Manufacture of WPC; 1.3. The structure of WPC. Matrix polymers; 1.4. The application of WPC in building; References; Chapter Two; 2.1. Deformability, tensile, compressive, and bending strength; 2.2. Impact strength; 2.3. Cracking; 2.4. Hardness; 2.5. Tearability; 2.6. Modulus of elasticity; References; Chapter Three; 3.1. Memory functions; 3.2 Relaxation experiments; 3.3. Description of the processes of sorption and swelling using the relaxation memory functions; 3.4. The principle of temperature-time superposition
5058 ▼a 6.3. Calculation model for the estimation of water permeability of nanocompositesReferences; Chapter Seven; 7.1 Several properties; 7.2. Water absorption; References; Chapter Eight; 8.1. Influence of UV irradiation and moisture; 8.2. The application of polymeric materials in the production of wood-polymer composites; References; Chapter Nine; 9.1. Thermodynamic miscibility and phase-separated morphology; 9.2. Several examples of calculations; 9.3. Calculation of compositions of microphases based on the glass transition temperatures of mix; 9.4. Influence of various factors on compatibility
520 ▼a At present, the use of polymer composites filled with wood (WPC) is becoming increasingly popular. In particular, flooring of terraced premises, siding, decorative fences, fence systems, steps, universal profiles, among others are made from WPC. In 1977, the first enterprise for the production of WPC appeared in Sweden. The first experience was not very successful - the demand turned out to be low, and the wear of technological equipment was very high. Therefore, developments in this field were resumed only in the 1990s and continue to this day. This book describes the basic physical and mechan.
5880 ▼a Online resource; title from PDF title page (EBSCO, viewed April 3, 2019).
590 ▼a Master record variable field(s) change: 650
650 0 ▼a Engineered wood
650 0 ▼a Composite materials
650 0 ▼a Polymeric composites
650 7 ▼a TECHNOLOGY & ENGINEERING ▼x Technical & Manufacturing Industries & Trades. ▼2 bisacsh
650 7 ▼a Composite materials. ▼2 fast ▼0 (OCoLC)fst00871682
650 7 ▼a Engineered wood. ▼2 fast ▼0 (OCoLC)fst00910308
650 7 ▼a Polymeric composites. ▼2 fast ▼0 (OCoLC)fst01070558
655 4 ▼a Electronic books
77608 ▼i Print version: ▼a Askadskii?, A. A. (Andrei? Aleksandrovich). ▼t Structure and Properties of Wood-Polymer Composites (WPC). ▼d Newcastle upon Tyne : Cambridge Scholars Publishing, 2019 ▼z 1527527964 ▼z 9781527527966 ▼w (OCoLC)1085153680
85640 ▼3 EBSCOhost ▼u http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=2084269
938 ▼a Askews and Holts Library Services ▼b ASKH ▼n AH36067109
938 ▼a EBL - Ebook Library ▼b EBLB ▼n EBL5732627
938 ▼a EBSCOhost ▼b EBSC ▼n 2084269
938 ▼a YBP Library Services ▼b YANK ▼n 16118247
990 ▼a 관리자
994 ▼a 92 ▼b N$T