Study on the application of a new surface burr treatment process

Abstract

During the wood milling process, the milling cutter will jeopardize the continuity and integrity of wood fibres, resulting in the surface roughness not meeting the requirements. Surface roughness is an important indicator to assess the surface quality of wood products, which has a great impact on its subsequent sealing performance, painting and decorative quality. Therefore, the surface roughness requirements should be factored in when designing the machining process and determining the machining allowance. This paper uses a computer numerical control (CNC) woodworking milling machine to process camphor wood products. During this processing experiment, the paper analyses the impact of changes in major processing parameters on the surface roughness of wood products, such as spindle speed, feed rate, movement trajectory, milling depth, along and against the grain. When it comes to the state of the wood product surface not meeting the subsequent process requirements after milling, further measures are proposed for ablative finishing treatment. In order to find the best way to remove the surface burr without damaging the base surface, the surface burr of milling wood was studied and analyzed from the micro-angle. Using scanning electron microscopy along with microscopic imaging technology to observe and analyse, the paper establishes an ablation model of processing surface burrs and conducts simulation analysis of the influence of parameter changes, to provide some theoretical basis for practical production and related research.