The structural size,compressive crushing load,critical compression and density of gingko core are measured.
对银杏核的结构尺寸、压缩破坏载荷及临界压缩变形量、密度等物性参数的测定表明 :银杏核分级时以级差 1mm、分级数以 4级为宜 ;破壳机的挤压腔间隙至少应保证 2 。
ANALYSIS OF FAILURE FEATURE OF BARRE GRANITE UNDER DYNAMIC COMPRESSION
Barre花岗岩动态压缩破坏特性研究
The Experimental Investigation of Quasi-static and Dynamic Compressive Mechanical Behaviors、Energy-absorbing Capacity and Collapse Mechanism of the Al Foam;
泡沫铝静动态压缩力学行为、吸能性能及压缩破坏机理的实验研究
Micromechanics for the Compressive Failure of Fiber Reinforced Composites;
纤维增强复合材料压缩破坏的细观力学研究
SIMULATION OF COMPRESSIVE FAILURE PROCESS OF COLUMNAR JOINTED ROCK MASS AND ITS FAILURE MECHANISM ANALYSIS
柱状节理岩体压缩破坏过程模拟及机制分析
Progressive Damage Analysis of Stiffened Composite Panels with Debonding Damage under Compressive Load
含脱粘损伤的复合材料加筋板压缩破坏渐进损伤数值分析
Dynamic compressive failure strength analysis of CBF basalt fiber stiffened laminated plates
玄武岩纤维复合材料层合加筋板轴向动力压缩破坏分析
Failure Waves in Alumina Ceramics Subjected to Shock Compression;
冲击压缩下氧化铝陶瓷中的破坏波研究
Failure Waves in Rock under Shock Wave Loading;
冲击波压缩下岩石介质中的破坏波研究
Compressive properties and failure mechanism of 3D C/C composites
三维C/C复合材料的压缩性能及破坏机制
Failure characteristics of fissured loess under triaxial compression condition
三轴压缩条件下裂隙性黄土的破坏特征
magnetostriction cavitation damage test
磁致伸缩空泡破坏试验
An Experimental Study of the Failure Mechanism of Compressed Thin Films in Nanoscale;
压缩载荷下纳米尺度薄膜材料破坏机理的实验研究
Expansion,Necking and Breakage of Inner Pressed Cylinder Induced by Local Thermal Loading;
局部热载作用下内压圆柱壳壁的膨胀、颈缩和破坏
UNIAXIAL COMPRESSION EXPERIMENTAL RESEARCH ON DEFORMATION AND FAILURE PROPERTIES OF BRITTLE MARBLE SPECIMEN WITH PRE-EXISTING FISSURES
断续预制裂隙脆性大理岩变形破坏特性单轴压缩试验研究
Dynamic compressive behavior and damage mechanism of cast magnesium alloy AZ91
高应变率下铸造镁合金AZ91的动态压缩性能及破坏机理
CT testing on meso-damage propagation mechanism of cracked-sandstone sample under triaxial compression loading
三轴压缩单一裂隙砂岩细观损伤破坏特性CT分析
The concentration under reduced pressure brings short time of concentration and prevent the destruction of the effective content in the thermal sensitive material.
由于采用减压浓缩,故浓缩时间短,且不会破坏热敏性物料的有效成份。
Evaluation of pressurized cylindrical shell damage induced by high energy laser irradiation(Ⅰ)--Analysis of rupture probability
激光辐照充压壳体的破坏评价(Ⅰ)——破坏概率分析
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