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Environmental Simulation of Circuit Board Epoxy

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Environmental Simulation of Circuit Board Epoxy Group Members Greg Kurtz Brad Walsh Brad Grimmel Jeff Baudek – PowerPoint PPT presentation

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Title: Environmental Simulation of Circuit Board Epoxy


1
Environmental Simulation of Circuit Board Epoxy
  • Group Members
  • Greg Kurtz
  • Brad Walsh
  • Brad Grimmel
  • Jeff Baudek

2
Project Overview
  • Lockheed/Martin is having a problem with cracking
    in circuit boards and circuit board epoxy
  • Project involves
  • Repairing an environmental chamber
  • Duplicating the cracking through physical testing
  • Using FEA/FEM to model circuit boards
  • Proposing a solution

3
Environmental Chamber
  • Must cycle temperature from 50C to 80C in one
    hour

4
Repairs Made to Chamber
  • Replaced Blower motor
  • Selected and Purchased new controller
  • Rewired LN2 solenoid and cables between chamber
    and controller
  • Made new wiring diagrams for operator references
  • Had new 208V 40A power outlet installed in NHMFL

5
Testing of Repaired Chamber
  • Chamber was cycled through maximum range of 73C
    to 316C
  • Chamber is capable of completing diurnal cycle
    from 50C to 80C in less than one hour

6
Circuit Board Testing
  • Purpose of testing was to simulate the effect of
    the standard military diurnal cycle on a UR-329
    encapsulated circuit board

7
Preparation Procedure
  1. Heat mold to 100C and apply releasing agent
  2. Mix resin and hardener and insert into vacuum
    chamber (samples were also prepared without
    vacuum)
  3. Curing period (either normal or accelerated cure)

8
Physical Testing
  • Samples were then cycled between 50 deg C and 80
    deg C each hour
  • Samples were checked approximately every 25
    cycles
  • Samples were exposed to approximately 550 cycles
    during testing

9
SEM Untreated Samples
10
SEM thermally cycled sample
11
Results of Testing
  • Cracking in epoxy

12
Results of Testing (Contd)
  • Cracking in circuit board

13
Finite Element Analysis (FEA)
  • 2-D and 3-D models made using FEA programs Ansys
    and Algor
  • Assumptions
  • Uniform Temperature Distribution
  • Constraint of zero displacement at two corners
  • Constant Material Properties

14
FEA Schematics
2-D
3-D
15
2-D Ansys Model
16
3-D Ansys Model
17
3-D Algor Model
18
Results of FEA
  • 2-D Ansys model showed stresses that were below
    the yield point of the circuit board
  • 3-D Ansys model was inaccurate due to constraints
  • 3-D Algor model showed that the stress present in
    the circuit board was below the yield point

19
Thermal Stress Calculations
  • Axial and Bending Stress due to temperature
    variations in the circuit board and epoxy were
    done to supplement the FEA

20
Model Setup
Basic Equations
  • Assumed
  • Constant value of E and CTE
  • Epoxy delaminated from the circuit board
  • Uniform temperature distribution

DL LoaDT
21
UR-329 Elastic Modulus
22
UR-329 Coefficient of Thermal Expansion
23
Results of Calculations
  • Calculated Axial stresses were below the yield
    stress of the ceramic throughout the entire
    temperature range
  • Calculations determined that with a constant CTE
    of 191.710-6/C an Elastic Modulus of 4230 psi
    for the epoxy is needed to crack the circuit
    board due to bending stress which occurs within
    the diurnal cycle specified by Lockheed/Martin
    for testing

24
Summary
  • Repair of Environmental Chamber
  • Recreation of circuit board and epoxy cracking
    through physical testing and observed using SEM
  • FEA was completed
  • Thermal stress calculations revealed that circuit
    board should crack

25
Recommendations
  • Use epoxy with
  • A modulus of elasticity with a lower glass
    transition temperature
  • A decreasing coefficient of thermal expansion
    with decreasing temperature
  • Further investigation of
  • Fatigue properties of circuit board
  • Adhesive properties of the epoxy
  • Examine use of different epoxy fillers
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