Innovative Materials and Design of Soundwalls

Innovative Materials and Design of Soundwalls
Author :
Publisher :
Total Pages : 184
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ISBN-10 : UCBK:C101135516
ISBN-13 :
Rating : 4/5 (16 Downloads)

Book Synopsis Innovative Materials and Design of Soundwalls by : Paul N. Roschke

Download or read book Innovative Materials and Design of Soundwalls written by Paul N. Roschke and published by . This book was released on 1997 with total page 184 pages. Available in PDF, EPUB and Kindle. Book excerpt: This report documents a study of the feasibility of using soundwalls constructed of recycled plastics in place of conventional building materials. Important considerations in selecting materials used in this study include: environmental impact, acoustics, aesthetics, performance, safety, and cost. Various recycled materials were solicited from commercial manufacturers and subjected to a number of laboratory and field tests. These tests include three-point bending tests, impact hammer excitations, and exposure to different types of weather. Based on those results, several of the most promising materials were selected for construction of a full-scale field installation of a test section of a soundwall. This field section was monitored for a period of one year for response to environmental factors such as wind and exposure to ultraviolet radiation. Analysis of the field structure includes system identification of dynamic characteristics, finite element simulation, and acoustic performance. Results show that noise insertion loss of the soundwall is exceptional. Structurally, the prototype soundwall performed adequately over the course of the project with only a few members showing detrimental effects from the harsh thermal environment. System identification and experimental analysis of test data were successfully implemented and indicate that the prototype soundwall is moderately wind sensitive. A finite element model of the soundwall was developed to simulate both static and dynamic response to loads. Using methods of modal superposition and random response, deflection was predicted for the top of the wall due to application of a strong wind event.


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