- Design and Machining Services
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- Design and Machining Services
Design and Machining Services
Canadian Components Offers CAD/CAM Design and Machining Services. Helping our clients design better working and cost effective replacement parts for their equipment.
Machine Capacity:
10" diameter 20" length 500LB CNC lathe capacity
30"L 12"W 16"H 500LB, 4 Axis CNC milling capacity
Flux core welding
50 Ton Hydraulic Press
CAD/CAM design Offers the unique ability to design, assemble and test equipment before it is ever produced.
Component Modeling- Model each component to create production drawings and detailed 3D object renderings.
Component assembly - Assembly component models to verify fitment constraints and produce detailed product renderings.
Assembly animation - Create short animations to display function of equipment.
Static stress - Analyze the deformation and stress into the model from structural loads and constraints.
From the results, you can investigate displacement, stresses, and common failure criteria. The results are calculated based on assumption of linear response to the stress.
Non linier static stress - Determine the static stresses and deformation throughout the model caused by structural loads and boundary conditions while considering nonlinear material properties and large deformations.
Thermal Stress - Determine temperatures and stress distributions on the model resulting from both thermal and structural loads.
Thermal - Determine how the model responds to Heat Loads and Thermal Boundary Conditions under steady state conditions. The Results include Temperatures and Heat Flux.
Structural buckling - Determine the Buckling modes of the model. The Results include Buckling Modes and their corresponding Load Multipliers.
Event simulation - Determine how your design responds to motion (including initial velocities), impacts, and time-dependent loads and constraints. The results include displacements, stresses, strains, and other measurements throughout a specified time period.
Shape optimization - Optimize parts to make them lightweight and structurally efficient based on the loads and boundary conditions applied to the geometry.
Modal frequencies - Determine the modal frequencies of the model. Structural Loads and Boundary Conditions can be included. The Results include Vibration Mode shapes, corresponding Frequencies and their mass participation factors.