Abstract
Joining metal to plastic can lighten weight of products to reduce energy consumption. However, it is difficult to achieve high-strength welding between metal and plastic. To address this problem, the methods of surface texture pretreatment and laser irradiation welding was proposed to achieve the high-strength connection of metal and plastic. In this study, with different parameters of laser power and texture morphology, 1060 Al with surface texture treatment was joined to polyethylene terephthalate (PET) by laser irradiation welding from metal side. Study showed that as the laser power increased, the tensile shear strength of joints increased first, and decreased thereafter. Tensile shear tests demonstrated that the mechanical force of joint was strengthened contributed to mechanical anchorage formed by surface texture. The depth-width ratio of the texture grooves affected the tensile shear process of the joint. According to the result of temperature simulation, the existence of texture grooves reduced the heat transfer efficiency, and the heat dissipation at interface was also impeded in course of laser welding. Finally, the maximum tensile strength of 1060Al-PET joint reached 48.4 MPa, which was close to the strength of PET matrix. The bonding mechanism of the 1060Al-PET joints was composed of mechanical bonding and chemical bonding. This study proposes an effective method to join metal to plastic which achieved high-strength connection between metal and plastic.
Highlights
Vigorous impetus is injected into the modern industry because of the application of new materials and new energy
polyethylene terephthalate (PET) started to decompose into bubbles because the temperature of the weld increased to a high level
When the texture distance decreased to 0.4 mm, the joint tensile shear strength no longer improved and reached to 48.4 MPa, which was equal to 100% of the strength of PET matrix
Summary
Vigorous impetus is injected into the modern industry because of the application of new materials and new energy. The connection between metal and polymer materials has broad prospects in lightweight application. Polymer materials (polymers) extensively utilized in many industries to achieve weight reduction, electrical insulation and good corrosion resistance in manufactured components [1, 2]. PET, one of a polymer, is applied to digital products, automobiles as structural materials by virtue of its lightweight and remarkable mechanical properties [3,4,5]. Liu et al Chinese Journal of Mechanical Engineering (2021) 34:134 performance. Most engineering structures are made of metal and plastic. The direction joining of plastic to metal materials is difficult because of their fundamentally different chemical and physical properties
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