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Performance of glass spheres/epoxy syntactic foam
Development of syntactic foam buoyancy material for deep submergence vehicles, ocean platforms, and acoustic arrays consisting of 60% epoxy resin matrix and 40% hollow glass spheres by weight; properties tested or measured include density, bulk modulus, water absorption after static and cyclic exposure, oil absorption, and compressive strength; water absorption decreases when specimen size increases and coatings are applied; materials costs are included; development of higher strength and lower density resin systems and glass spheres is expected to improve properties of syntactic foam. (p 144, 146, 149, 151, 231)
Performance of glass spheres/epoxy syntactic foam
Development of syntactic foam buoyancy material for deep submergence vehicles, ocean platforms, and acoustic arrays consisting of 60% epoxy resin matrix and 40% hollow glass spheres by weight; properties tested or measured include density, bulk modulus, water absorption after static and cyclic exposure, oil absorption, and compressive strength; water absorption decreases when specimen size increases and coatings are applied; materials costs are included; development of higher strength and lower density resin systems and glass spheres is expected to improve properties of syntactic foam. (p 144, 146, 149, 151, 231)
Performance of glass spheres/epoxy syntactic foam
Modern Plastics
Resnick, I. (author)
Modern Plastics ; 43
1965
Article (Journal)
English
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Syntactic Foam Prepared with Glass Hollow Spheres of Designed Size and Wall Thickness Ratio
| Trans Tech Publications | 2014
| Engineering Index Backfile | 1968