Reduction of Residual Stress in Epoxy Coating Layer by Compounding Hollow Glass Microspheres

“…The coefficient of linear expansion ranged from 6.06 × 10 −5 /K to 5.40 × 10 −5 /K for ZnO additions from 5 to 15 wt%. The internal stress in the coating due to thermal elongation is expressed by (1) [6].…”

“…The coefficient of linear expansion ranged from 6.06 × 10 −5 /K to 5.40 × 10 −5 /K for ZnO additions from 5 to 15 wt%. The internal stress in the coating due to thermal elongation is expressed by (1) [6]. $$$$ P=E\ \left({a}_{\mathrm{c}}-{a}_{\mathrm{m}}\left)\right({T}_{\mathrm{g}}-{T}_{\mathrm{m}}\right).$$…”

Fundamental Study of Spacer‐Insulation‐Performance Improvement by Nonlinear‐Resistance Material

“…The coefficient of linear expansion ranged from 6.06 × 10 −5 /K to 5.40 × 10 −5 /K for ZnO additions from 5 to 15 wt%. The internal stress in the coating due to thermal elongation is expressed by (1) [6].…”

“…The coefficient of linear expansion ranged from 6.06 × 10 −5 /K to 5.40 × 10 −5 /K for ZnO additions from 5 to 15 wt%. The internal stress in the coating due to thermal elongation is expressed by (1) [6]. $$$$ P=E\ \left({a}_{\mathrm{c}}-{a}_{\mathrm{m}}\left)\right({T}_{\mathrm{g}}-{T}_{\mathrm{m}}\right).$$…”

Fundamental Study of Spacer‐Insulation‐Performance Improvement by Nonlinear‐Resistance Material