Abaqus tutorials Abaqus tutorials
In this package, the high and low-velocity impacts are investigated through 40 step-by-step tutorials for more than 20 hours. Through those 40 separated simulations, all aspects of the impact and collision are studied. Each tutorial contains cae, inp, step-by-step English video, and papers, also some of them have codes.
Impact on concrete panel, wall, beam, composite panel, ceramics, steel, aluminum, composite materials, CFRP, BFRP, plastic material, … is simulated. All part of the lecture is a step-by-step tutorial A to Z. You can check the below list for the lecture contents
Simulation steel bullet impact to the armor panel(Ceramic- Aluminum Foam) in Abaqus
Simulation rigid projectile impact to the ceramic-CFRP panel in Abaqus-Damage investigation
Simulation rigid impact to the composite panel(CFRP+TPU+AL) in Abaqus-Damage investigation
Simulation RC beam under the repeated impact of the rigid hammer in Abaqus
High-velocity impact on the RC panel- Paper validation
Simulation oblique high-velocity impact of an aluminum rod to the silicon-carbide target in Abaqus
Simulation of low energy impact on the RC beam and residual displacement investigation in Abaqus
Simulation of rigid body impact to the interior voided RC slab in Abaqus
Simulation high-velocity impact of the steel rod to the composite panel(Steel-Ceramic-AFRP) in Abaqus
Simulation high-velocity impact of the steel bullet on the Ceramic-Epoxy panel in Abaqus
Simulation steel projectile impact on the Acrylonitrile butadiene styrene(ABS) plate in Abaqus
Simulation rigid impact on the ultra-high performance fiber reinforced concrete slab in Abaqus
Simulation repeated impact of the rigid body to the steel box in Abaqus
Simulation high-velocity impact of the steel projectile on the composite panel(Steel-Concrete-Epoxy glass) in Abaqus
Simulation ballistic impact on ceramic-titanium composite armor in Abaqus
Simulation High-velocity impact of a brass projectile on the Ceramic-Aluminum-Glass fiber in Abaqus
Simulation low-velocity impact on reinforced concrete beam in Abaqus-Damage investigation
Simulation low-velocity impact response and damage mechanism of glass fiber aluminum laminates in Abaqus
Simulation steel-Silicon Carbide-Steel trilayers subject to ballistic impact in Abaqus
Numerical simulation modeling of high-velocity impact applied to reinforced concrete panel
Numerical investigations of S-Glass/Polyester composite laminate plate under low energy impact
Simulation high-velocity impact failure of aluminum honeycomb sandwich panels in Abaqus
Simulation rigid impact on CFRP plates in Abaqus
Simulation of high speed impact into ceramic composite systems using JH2 material model in Abaqus
Simulation high-velocity impact of a ceramic target with Johnson–Holmquist material model
Simulation Ballistic performances of concrete targets subjected to projectile impact by JH2 model in Abaqus
Perforation mechanics of aluminum protective plates subjected to impact by a projectile in ABAQUS
Simulation high-velocity bullet impact to three layers plate in Abaqus
Simulation impact welding process in Abaqus by using the Lagrangian approach
Simulation and Analysis of Ballistic Impact in ABAQUS-Thermal analysis
Simulation low-velocity impact to the hybrid corrugated core sandwich structure in Abaqus
Simulation Rigid body impact to the sandwich panel(Al-Epoxy-Glass) in Abaqus
Simulation High-Velocity Impact on Silicon Carbide(Ceramic) In Abaqus
Simulation rod impact to the steel-ceramic plate
Simulation high-velocity impact of steel rod to the ceramic-composite plate in Abaqus
Simulation ball impact to the net in Abaqus by using Fluid Cavity procedure
Simulation rigid ball impact to the balloon filled with gas
Simulation soccer ball impact to the human skull in Abaqus
Simulation femur bone fracture under rigid impact in Abaqus
The cost for this lecture contains Forty separated models step by step more than twenty hours duration is Seventy-Six Euros. You can use a PayPal account, a Visa, or a Master card for the payment.
Before payment, send me an email to this address: karampourp@gmail.com
