References
- Bayraktar, E. and Afyon, F. (2020) Machinability properties of Al–7Si, Al–7Si–4Zn and Al–7Si–4Zn–3Cu alloys. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42(4), 187.
- Bayraktar, E. and Demir, O. (2020) Processing of T6 heat-treated Al-12Si-0.6Mg alloy. Materials and Manufacturing Processes, 35(3), 354–362.
- Bayraktar, E. and Hekimolu, A. P. (2020) Effect of zinc content and cutting tool coating on the MACHINABILITY of the Al-(5–35) Zn alloys. Metals and Materials International, 26(4), 477–490.
- Budak, E., Comak, A. and Ozturk, E. (2013) Stability and high-performance machining conditions in simultaneous milling. CIRP Annals - Manufacturing Technology, 62(1), 403–406.
- Cao, P. X., Zhu, Z. L., Buck, D., Guo, X. L., Ekevad, M. and Wang, X. D. (2019) Effect of rake angle on cutting performance during machining of stone-plastic composite material with polycrystalline diamond cutters. Journal of Mechanical Science and Technology, 33(1), 351–356.
- Chaharmahali, M., Tajvidi, M. and Najafi, S. K. (2010) Mechanical properties of wood plastic composite panels made from waste fiberboard and particleboard. Polymer Composites, 29(6), 606–610.
- Chen, D., Lin, B., Han, Z. L. and Zhang, Y. B. (2013) Study on the optimization of cutting parameters in turning thin-walled circular cylindrical shell based upon cutting stability. International Journal of Advanced Manufacturing Technology, 69(1–4), 891–899.
- China Forestry Industry Association (2021) Floor sales in China in 2020. China Wood-Based Panels, 28(3), 47.
- Chowdhury, M. S. I., Bose, B., Rawal, S., Fox-Rabinovich, G. S. and Veldhuis, S. C. (2021) Investigation of the wear behavior of PCD coated carbide tools during Ti6Al4V machining with intensive built up edge formation. Coatings, 11(3), 266.
- Corduan, N., Himbart, T., Poulachon, G., Dessoly, M., Lambertin, M., Vigneau, J. and Payoux, B. (2003) Wear mechanisms of new tool materials for Ti-6AI-4V high performance machining. CIRP Annals-Manufacturing Technology, 52(1), 73–76.
- Gómez-Parra, A., Álvarez-Alcón, M., Salguero, J., Batista, M. and Marcos, M. (2013) Analysis of the evolution of the built-up edge and built-Up Layer Formation mechanisms in the dry turning of aeronautical aluminium alloys. Wear, 302(1–2), 1209–1218.
- Guo, X. L., Ekevad, M., Marklund, B., Li, R. R., Cao, P. X. and Gronlund, A. (2014) Cutting forces and chip morphology during wood plastic composites orthogonal cutting. Bioresources, 9(2), 2090–2106.
- Guo, X. L., Wang, J. X., Buck, D., Zhu, Z. L. and Guo, Y. (2021) Machinability of wood fiber/polyethylene composite during orthogonal cutting. Wood Science and Technology, 55(2), 521–534.
- Jiang, Y. T., Li, D. G., Wu, Z. Y. and Ding, J. S. (2008) Effect of temperature on two kinds of wood plastic composites. Forestry Machinery & Woodworking Equipment, 2008(36), 24–27.
- Li, R. R., He, C. J. and Wang, X. D. (2021b) Evaluation and modeling of processability of laser removal technique for bamboo outer layer. JOM Journal of the Minerals Metals and Materials Society, 73(8), 2423–2430.
- Li, R. R., He, C. J., Chen, Y. J. and Wang, X. D. (2021a) Effects of laser parameters on the width of color change area of poplar wood surface during a single irradiation. European Journal of Wood and Wood Products, 79(5), 1109–1116.
- Ozcatalbas, Y. (2003) Chip and built-up edge formation in the machining of in situ Al4C3-Al composite. Materials & Design, 24(3), 215–221.
- Pálmai, Z. (2012) Model of chip formation during turning in the presence of a built-up edge (BUE). Manufacturing Technology, 12(2), 207–212.
- Pálmai, Z. and Csernák, G. (2013) Effects of built-up edge-induced oscillations on chip formation during turning. Journal of Sound and Vibration, 332(8), 2057–2069.
- Pei, Z. J., Zhu, N. F. and Gong, Y. (2016) A study on cutting temperature for wood-plastic composite. Journal of Thermoplastic Composite Materials, 29(12), 1627–1640.
- Silva, W. D. M., Martins, P. S., Carvalho, V. E. D., Cruz, N. C. D., Claudino, E. and Carneiro, J. R. G. (2021) Improving precision in aluminum alloy machining due to the application of diamond-like carbon thin film. Journal of Tribology, 143(7), 071403.
- Soury, E., Behravesh, A. H., Esfahani, E. R. and Zolfaghari, A. (2009) Design, optimization and manufacturing of wood-plastic composite pallet. Materials & Design, 30(10), 4183–4191.
- Szwajka, K. and Trzepieciński, T. (2016) Effect of tool material on tool wear and delamination during machining of particleboard. Journal of Wood Science, 62(4), 305–315.
- Takeyama, H. and Ono, T. (2008) Basic investigation of built-up-edge. Bulletin of JSME, 34(403), 558–565.
- Vilches, F. J. T., Bejar, S. M., Gamboa, C. B., Fernandez, M. H. and Hurtado, L. S. (2021) Influence of tool wear on form deviations in dry machining of UNS A97075 alloy. Metals, 11(6), 958.
- Yanez-Pacios, A. J. and Martin-Martinez, J. M. (2017) Surface modification and improved adhesion of wood-plastic composites (WPCs) made with different polymers by treatment with atmospheric pressure rotating plasma jet. International Journal of Adhesion and Adhesives, 77, 204–213.
- Zhu, Z. L., Buck, D., Wang, J. X., Wu, Z. W., Xu, W. and Guo, X. L. (2022) Machinability of differentwood-plastic composites during peripheral milling. Materials, 15, 1303.
- Zhu, Z. L., Cao, P. X., Guo, X. L., Qiu, X. H., Xie, S. Y. and Ekevad, M. (2018) Cutting performance of cemented carbide cutting tool in turning high-density fiberboard. Materialwissenschaft Und Werkstofftechnik, 49(12), 1476–1484.
- Zhu, Z. L., Guo, X. L., Ekevad, M., Cao, P. X., Na, B. and Zhu, N. F. (2017) The effects of cutting parameters and tool geometry on cutting forces and tool wear in milling high-density fiberboard with ceramic cutting tools. International Journal of Advanced Manufacturing Technology, 91(9–12), 4033–4041.