玻璃纤维
玻璃纖維
파리섬유
FIBER GLASS
2011年
6期
36-40,49
,共6页
李卫东%刘洪刚%孙仲平%岳荣良%石明国
李衛東%劉洪剛%孫仲平%嶽榮良%石明國
리위동%류홍강%손중평%악영량%석명국
玻纤多轴向织物%风电叶片%复合材料力学性能
玻纖多軸嚮織物%風電葉片%複閤材料力學性能
파섬다축향직물%풍전협편%복합재료역학성능
glass fiber multiaxial fabric%wind turbine blade%mechanical properties of composites
为提高风能资源利用效率,降低风力发电成本,在传统E玻纤多轴向织物的基础上,玻纤增强材料供应商泰山玻纤开发了新型高性能玻纤及其多轴向织物。本文主要探讨兆瓦级风电叶片对玻纤增强材料的选择。
為提高風能資源利用效率,降低風力髮電成本,在傳統E玻纖多軸嚮織物的基礎上,玻纖增彊材料供應商泰山玻纖開髮瞭新型高性能玻纖及其多軸嚮織物。本文主要探討兆瓦級風電葉片對玻纖增彊材料的選擇。
위제고풍능자원이용효솔,강저풍력발전성본,재전통E파섬다축향직물적기출상,파섬증강재료공응상태산파섬개발료신형고성능파섬급기다축향직물。본문주요탐토조와급풍전협편대파섬증강재료적선택。
In order to improve the wind resource utilization and reduce the cost of wind power generation, Taishan Fiberglass, a fiberglass reinforcements supplier, has developed a new type high performance glass fiber and multiaxial fabrics made therewith on the basis of conventional E-glass multiaxial fabrics. This paper discusses the choice of high performance glass fiber reinforcements for making megawatt wind turbine blades.
