Add to ORKGThe present work describes the development of sandwich composite panels for application in modular housing in developing countries. Sandwich panels were developed with hybrid fibrous skins combined with polyurethane core. Different fibrous materials and structures were studied in order to achieve a sustainable solution. The analyzed fibers were jute, sisal, flax and glass fiber. In order to select the most suitable fibrous materials, mechanical performance as well as acoustic and thermal insulation behaviors were investigated. The selection of materials was based on a decision matrix that took in to account all analyzed parameters. After defining the final solution a prototype, which was a sandwiched panel with skins made of glass a...
Sandwich panels represent a lightweight solution with additional properties as insulation compared t...
Traditionally wood based composites like oriented strand boards (OSB) and particle boards have been ...
Increasing demand for light and durable materials in home and office furniture requires optimizing t...
The present work describes the development of sandwich composite panels for application in modular ...
This paper deals with the characterization of acoustic insulation behaviour of hybrid sandwich comp...
Polymeric composites reinforced with natural fibers have raised more attention as the alternative bu...
Although many efforts have been made to utilize natural fibers for building components, most were fo...
Sandwich construction is widely used because of its ability to provide high bending stiffness couple...
A series of experimental tests have been carried out on three types of novel sandwich panels mainly ...
Sandwich panels are composites which consist of two thin laminate outer skins and lightweight (e.g.,...
Sandwich composites are widely used in various industries such as aeronautical, mechanical, automoti...
Mechanical analysis is presented for new high-strength sandwich panels made from wood-based phenolic...
The traditional composite sandwich structures have disadvantages of low shear modulus and large defo...
Sandwich structures are being used increasingly in civil engineering because of their high strength,...
Sandwich panels made of fiber-reinforced polymer (FRP) skins and light-weight core materials have th...
Sandwich panels represent a lightweight solution with additional properties as insulation compared t...
Traditionally wood based composites like oriented strand boards (OSB) and particle boards have been ...
Increasing demand for light and durable materials in home and office furniture requires optimizing t...
The present work describes the development of sandwich composite panels for application in modular ...
This paper deals with the characterization of acoustic insulation behaviour of hybrid sandwich comp...
Polymeric composites reinforced with natural fibers have raised more attention as the alternative bu...
Although many efforts have been made to utilize natural fibers for building components, most were fo...
Sandwich construction is widely used because of its ability to provide high bending stiffness couple...
A series of experimental tests have been carried out on three types of novel sandwich panels mainly ...
Sandwich panels are composites which consist of two thin laminate outer skins and lightweight (e.g.,...
Sandwich composites are widely used in various industries such as aeronautical, mechanical, automoti...
Mechanical analysis is presented for new high-strength sandwich panels made from wood-based phenolic...
The traditional composite sandwich structures have disadvantages of low shear modulus and large defo...
Sandwich structures are being used increasingly in civil engineering because of their high strength,...
Sandwich panels made of fiber-reinforced polymer (FRP) skins and light-weight core materials have th...
Sandwich panels represent a lightweight solution with additional properties as insulation compared t...
Traditionally wood based composites like oriented strand boards (OSB) and particle boards have been ...
Increasing demand for light and durable materials in home and office furniture requires optimizing t...