Font Size: a A A
Keyword [cohesive model]
Result: 1 - 20 | Page: 1 of 2
1. Research On The Interface Mechanical Behavior Of Carbon Fiber/Resin Single Fiber Composites
2. Simulation Study On Nano-scale Interfacial Behavior And Micro-scale Fracture Behavior Of Ceramic Tool Materials
3. FEA Of Efficiency In Rotary Ultrasonic Drilling Of Engineering Ceramics
4. The Mechanics Performance Experiments And Theoretical Research Of The Epoxy Bonding Structure
5. Experimental Study On The Peeling Properties Of T-Type Brazing Joints
6. Cumulative Fatigue Damage Numerical Analysis For Composite Laminates
7. Meso-Finite Element Analysis Of The Tensile Properties Of Composites Based On Cohesive Model
8. Study On The Construction Methods Of Damage Model Of Composite Laminates And Their Application
9. Research On Bulge Failure In The Joint Of Polyethylene Pipe Reinforced By Winding Steel Wires Owing To Steel/Polymer Interfacial Debonding
10. Numerical Analysis About Effects Of Microstructure On Mechanical Properties Of Particle Reinforced Composites
11. Numerical Simulation For Failure Mechanism Of Hard Thin Films/Ductile Substrates System Under Contact Load By Using The Cohesive Model
12. Research On Flakes’ Generation Mechanism And Pre-control In Heavy Forgings
13. Research On Fracture Toughness Of Bimodal Nanocrystalline Materials
14. Damage And Failure Analysis Of Heterogeneous Materials Based On Cohesive Zone Model
15. Numerical Simulation And Experimental Investigation On The Mechanical Behavior Of GLARE Laminates
16. Simulation Of Nonlinear Mechanical Behavior Of Refractory Materials Based On Cohesive Model
17. Study On Failure Mechanism Of Thermoplasitic Composite Based On Explicit Finite Element Method
18. Research On Interface Failure Mechanisms Of Composite Adhesive Joints Based On The Cohesive Model
19. Study On Damage And Deformation Of Fiber Reinforced Shape Memory Polymer Composites
20. Failure Analysis Of Filling Zone Of CFRP-T Joints By Numerical Simulation And DIC Experiment
  <<First  <Prev  Next>  Last>>  Jump to