Effect of temperature related processing parameters on the interface bonding strength of automotive overmolding injection parts
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Ling Yu
Abstract
The effect of processing parameters related to temperature on the interface bonding strength of automotive overmolding injection parts was investigated using moldflow simulation. In this study, the average depth of the melting layer, the melting time of the melting layer and the temperature of the melting layer on the basal body in the interface zone are used as a qualitative index, and the interface bonding strength of the tensile test and the results observed by scanning electron microscopy are used as a basis for verification. The results show that processing parameters related to temperature have a great influence on the interface bonding strength of parts. With an increase in melt and mold temperature, interface bonding strength is also strengthened. The most influential factor is the melt temperature of the second material.
References
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© 2019, Carl Hanser Verlag, München
Artikel in diesem Heft
- Inhalt/Contents
- Contents
- Fachbeiträge/Technical Contributions
- Stability of structured sheet metals during buckling
- Oxidation behavior of 29Cr-8Ni ferritic stainless steel in air flow at 1173 and 1273 K
- Microstructure and mechanical properties of friction stir welded dissimilar 5754-H111-6013-T6 aluminum alloy joints
- Investigation of heterogeneous ratcheting of a GTAW welded joint for primary coolant piping
- Determination of the modulus of linearity of acrylic bases and acrylic teeth
- Effect of temperature related processing parameters on the interface bonding strength of automotive overmolding injection parts
- Design, fabrication and vibration analysis of a lightweight head expander for a high frequency electrodynamic shaker
- Influence factors of pop-in in the nanoindentation micromechanical property measurement of gas-bearing shale
- Setup for testing the vibration-based loosening of pre-loaded bolted joints
- Influence of graphene oxide on the static and dynamic mechanical behavior of compatibilized polypropylene nanocomposites
- Influence of the moisture state of recycled fine aggregate on the impermeability of concrete
- Mechanical properties of 16 different FDM-plastic types
- Effects of various vitamin C amounts on the green synthesis of reduced graphene oxide
- Validation of the dynamic response of the HMA layer in an inverted pavement measured by strain foils
Artikel in diesem Heft
- Inhalt/Contents
- Contents
- Fachbeiträge/Technical Contributions
- Stability of structured sheet metals during buckling
- Oxidation behavior of 29Cr-8Ni ferritic stainless steel in air flow at 1173 and 1273 K
- Microstructure and mechanical properties of friction stir welded dissimilar 5754-H111-6013-T6 aluminum alloy joints
- Investigation of heterogeneous ratcheting of a GTAW welded joint for primary coolant piping
- Determination of the modulus of linearity of acrylic bases and acrylic teeth
- Effect of temperature related processing parameters on the interface bonding strength of automotive overmolding injection parts
- Design, fabrication and vibration analysis of a lightweight head expander for a high frequency electrodynamic shaker
- Influence factors of pop-in in the nanoindentation micromechanical property measurement of gas-bearing shale
- Setup for testing the vibration-based loosening of pre-loaded bolted joints
- Influence of graphene oxide on the static and dynamic mechanical behavior of compatibilized polypropylene nanocomposites
- Influence of the moisture state of recycled fine aggregate on the impermeability of concrete
- Mechanical properties of 16 different FDM-plastic types
- Effects of various vitamin C amounts on the green synthesis of reduced graphene oxide
- Validation of the dynamic response of the HMA layer in an inverted pavement measured by strain foils
