Additive manufacturing of wood composite parts by individual layer fabrication - influence of process parameters on product properties

IF 5.3 Q2 MATERIALS SCIENCE, COMPOSITES
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Abstract

Individual Layer Fabrication (ILF) is a novel additive manufacturing process that was developed to create objects with high wood content and high mechanical strength. Here, thin and individually contoured wood composite panels are created via Binder Jetting and subsequent mechanical pressing. Like in Sheet Lamination, these panels are then laminated onto each other to create a three-dimensional object. With wood contents (more than 85 mass percent) and mechanical properties (more than 30 MPa flexural strength) on par with other engineered wood products like particle boards and plywood, the produced objects are well suited for the construction and furniture industry. To gain a deeper understanding of the process, the influence of processing parameters on the geometric and mechanical properties of the finished objects were investigated. As process parameters the amounts of adhesive and the pressing forces for both panel production and lamination were selected. It was discovered that the interaction between the amount of adhesive and the pressure used to produce the panels is highly relevant for the geometric properties. The three core mechanisms that are responsible for the mechanical properties of produced parts were identified and can be ranked in the following order: 1) the amount of adhesive in the panels binding the particles, 2) the density of the panels, 3) the amount of adhesive for laminating the panels.

单层制造木质复合材料部件的增材制造--工艺参数对产品性能的影响
单层制造(ILF)是一种新颖的增材制造工艺,用于制造高木质含量和高机械强度的物体。在这种工艺中,通过粘合剂喷射和随后的机械压制,可以制造出薄而具有独立轮廓的木质复合板。与板材层压一样,这些板材随后被层压在一起,形成一个三维物体。由于木材含量(超过 85%)和机械性能(抗弯强度超过 30 兆帕)与刨花板和胶合板等其他工程木制品相当,生产出的产品非常适合建筑和家具行业。为了深入了解该工艺,我们研究了加工参数对成品几何和机械性能的影响。作为工艺参数,选择了板材生产和层压的粘合剂用量和压制力。结果发现,粘合剂用量和板材生产压力之间的相互作用与几何特性密切相关。确定了影响生产部件机械性能的三个核心机制,并可按以下顺序排列:1) 面板中粘合颗粒的粘合剂用量;2) 面板的密度;3) 层压面板的粘合剂用量。
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来源期刊
Composites Part C Open Access
Composites Part C Open Access Engineering-Mechanical Engineering
CiteScore
8.60
自引率
2.40%
发文量
96
审稿时长
55 days
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