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机译:迈向航空航天级薄层复合材料:层厚度,纤维,基体和中间层的增韧对强度和损伤耐受性的影响
Ecole Polytech Fed Lausanne, Lab Appl Mech & Reliabil Anal, Lausanne, Switzerland;
Ecole Polytech Fed Lausanne, Lab Appl Mech & Reliabil Anal, Lausanne, Switzerland;
Ecole Polytech Fed Lausanne, Lab Appl Mech & Reliabil Anal, Lausanne, Switzerland;
FHNW, Inst Kunststofftech, Windisch, Switzerland;
FHNW, Inst Kunststofftech, Windisch, Switzerland;
FHNW, Inst Kunststofftech, Windisch, Switzerland;
NTPT, Renens, Switzerland;
Huntsman Adv Mat, Basel, Switzerland;
Rung Aerostruct, Emmenbrucke, Switzerland;
Ecole Polytech Fed Lausanne, Lab Appl Mech & Reliabil Anal, Lausanne, Switzerland;
Impact behaviour; Matrix cracking; Damage tolerance; Acoustic emission; Thin-ply composite;
机译:薄碳纤维/增韧环氧层压板的强度和抗损伤性能的实验表征
机译:具有热塑性增韧中间层的碳/苯并恶嗪复合材料的损伤耐受性研究
机译:具有非均匀纤维间距的薄层复合材料的有效弯曲模量
机译:厚度对薄层CFRP层压板冲击损伤模式的影响
机译:有限元分析杂交薄层复合材料改进航空航天结构性能的研究
机译:伪硬质薄层角层混合复合材料的撞击后行为
机译:高性能准各向同性薄碳/玻璃杂化复合材料,在所有纤维方向上均具有拟延性