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Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 aol.com Study of Deformation due to Thermally Induced.

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Presentation on theme: "Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 aol.com Study of Deformation due to Thermally Induced."— Presentation transcript:

1 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Study of Deformation due to Thermally Induced Stress in a Water Cooled Plastic Injection Mold A Finite Element Model (FEA) using flexPDE Craig E. Nelson - Consultant Engineer

2 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Goal for the Numerical Study A steady state finite element model is to be developed that aids understanding of the stresses and strains in a water cooled steel mold suitable for injection molding thermoplastic parts of moderately large size. The model is “multiphysics” oriented in the sense that stress, strain and temperature fields are cross coupled and solved for simultaneously Plastic polymeric resin is continuously injected through a wedge shaped inlet port at a temperature of 340 degrees C. A rectangular cavity is filled with resin to form the molded part. Two circular cooling pipes in the mold body carry water, which is continuously chilled to 0 degrees C. The temperature differential through the mold cross section causes complex stress and strain fields to result. The strain field will result in distortion of the molded part if not corrected for.

3 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com The Cross-Coupled Partial Differential Equations to Be Solved: Temperature and strain equations: dx( sx) + dy( sxy)= 0 dx( sxy)+ dy( sy)= 0 dx(-k*dx( dtemp))+ dy(-k*dy( dtemp)) - source= 0 Stress is subsequently derived from the temperature induced strain field using: sx= C*(ex+ mu*ey- [1+mu]*alpha*dtemp) {sx, sy = x and y direction stress} sy= C*(mu*ex+ ey- [1+mu]*alpha*dtemp) {ex, ey = x and y direction strain} sxy= G*exy {shear stress} where: ex= dx(u) ey= dy(v) exy= dx(v)+ dy(u) and u = x direction strainv = y direction strain C= E/(1-mu^2) G = E/[2*(1+mu)] and E is Young’s Modulusmu is Poison’s ratio alpha is the linear coefficient of expansion

4 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com The Solution Domain (dimensions are in meters) Inlet Injection Port Cover Plate Mold Body Support Footing Cooling Pipe Bottom Plate Material is 4140 Steel

5 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Vector Plot of Material Movement Induced by Thermal Stress

6 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Horizontal Strain (dimensions are in meters)

7 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Vertical Strain (dimensions are in meters)

8 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Temperature in the Solution Domain (degrees C)

9 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Temperature in the Solution Domain (degrees C)

10 Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 Craigmail @ aol.com Summary A finite element model has been developed that aids understanding of the stresses and strains in a steel mold suitable for injection molding thermoplastic parts of moderately large size. The model is “multiphysics” oriented in the sense that stress, strain and temperature fields are cross coupled and solved for simultaneously

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