Experimental and Numerical Investigation of Injection Molding Main Parameters’ Effects on Shrinkage and Warpage of a Thin Sheet Made of HDPE
Subject Areas :
advanced manufacturing technology
Ali
Massah
1
(Department of Mechanical ngineering,
Najafabad Branch, Islamic Azad University, Isfahan, Iran)
Nathan
Jafarian Jam
2
(Department of Mechanical Engineering,
Pardis Branch, Islamic Azad University, Pardis, Iran)
Ehsan
Soury
3
(Department of Mechanical Engineering,
Arak University, Arak, Iran)
Received: 2021-08-15
Accepted : 2022-01-05
Published : 2022-09-01
Keywords:
Injection molding,
melts and mold temperature,
HDPE,
Shrinkage,
warpage,
Packing Time,
Abstract :
Injection molding is one of the common processes for producing plastic parts. In this process, the mold is filled immediately and then the part and mold will be cooled down during the packing time. In the end, the part will be ejected from the mold. In this study, the effects of the most important processing parameters such as packing time, melt and mold temperature have been investigated on shrinkage and warpage of the products experimentally and numerically. According to previous reports, a thin sheet is defined by a length to thickness ratio of at least 100. MOLDFLOW software has been utilized to obtain the numerical results. For the empirical study, 64 specimens have been produced in different production conditions. These samples have been scanned by a 3D scanner and results have been analyzed by CATIA software. The findings show that increasing melt and mold temperature decreases the warpage amount and rises the shrinkage in the specimens. Also increasing the packing time up to 2 seconds increases the warpage and decreases the shrinkage noticeably but in longer packing times the variations will be less remarkable. Moreover, findings show that the general trend in simulated and experimental results are similar in all reported values of shrinkage and warpage, in which the maximum calculated errors for both of them are approximately 10%.
References:
Jam, N. J., Behravesh, A. H., Flow Behavior of HDPE-Fine Wood Particles Composites, Journal of Thermoplastic Composite Materials, Vol. 20, pp. 439-451.
Jafarian Jam, N., Hossein Behravesh, A., Challenge to the Production of Fine Wood—Plastic Injection Molded Composites, Journal of Reinforced Plastics and Composites, Vol. 28, 2009, pp. 73-82.
Menges, Mohren, How to Make Injection Moulds, Hanser Publishers, 1992.
Shahi, P., Behravesh, A., Arezou, B., and Mahmoudi, M., Investigation of Injection Molding Process Parameters, Location and Shape of the Gate on the Accuracy of the Products, International Journal of advanced design and manufacturing technology, Vol. 2, 2009, pp. 7-17.
Huang, M. C, Tai, C. C., Effective Factors in the Warpage Problem of an Injection-Molded Part with A Thin Shell Feature, Journal of Materials Processing Technology, Vol. 110, 2001, pp. 1-9.
Panahizadeh, V., Khorsand, H., and Azadeh, M., Numerical Analysis of Mold Filiing in Injection Molding Process of MIM and Comparing with Empirical Results 4th International Conference of Manufacturing Engineering, Tehran, Iran, 2018.
Mahmoud, M. S., Saman, S. D., Optimizing the Manufacturing Process of Reinforced Thermoplastic Composites with Short Natural Fibers with the Aim of Minimizing the warpage, International Journal of Advanced Design and Manufacturing Technology, Vol. 2, 2009, pp. 9-15.
Liao, S., Chang, D. Y., Chen, H., Tsou, L., Ho, J. R., Yau, H. T., Hsieh, W., Wang, J., and Su, Y. C., Optimal Process Conditions of Shrinkage and Warpage of Thin‐Wall Parts, Polymer Engineering & Science, Vol. 44, 2004, pp. 917-928.
Liao, S., Hsieh, W., Wang, J., and Su, Y., Shrinkage and Warpage Prediction of Injection‐Molded Thin‐Wall Parts Using Artificial Neural Networks, Polymer Engineering & Science, Vol. 44, 2004, pp. 2029-2040.
Ozcelik, B., Erzurumlu, T., Determination of Effecting Dimensional Parameters on Warpage of Thin Shell Plastic Parts Using Integrated Response Surface Method and Genetic Algorithm, International Communications in Heat and Mass Transfer, Vol. 32, 2005, pp. 1085-1094.
Kurtaran, H., Erzurumlu, T., Efficient Warpage Optimization of Thin Shell Plastic Parts Using Response Surface Methodology and Genetic Algorithm, The International Journal of Advanced Manufacturing Technology, Vol. 27, 2006, pp. 468-472.
Oktem, H., Erzurumlu, T., and Uzman, I., Application of Taguchi Optimization Technique in Determining Plastic Injection Molding Process Parameters for a Thin-Shell Part, Materials & Design, Vol. 28, 2007, pp. 1271-1278.
Chiang, K. T., Chang, F. P., Analysis of Shrinkage and Warpage in an Injection-Molded Part with a Thin Shell Feature Using the Response Surface Methodology, The International Journal of Advanced Manufacturing Technology, Vol. 35, 2007, pp. 468-479.
Song, M. C., Liu, Z., Wang, M. J., Yu, T. M., and Zhao, D. Y., Research on Effects of Injection Process Parameters on the Molding Process for Ultra-Thin Wall Plastic Parts, Journal of Materials Processing Technology, Vol. 187, 2007, pp. 668-671.
Chen, C. P., Chuang, M. T., Hsiao, Y. H., Yang, Y. K., and Tsai, C. H., Simulation and Experimental Study in Determining Injection Molding Process Parameters for Thin-Shell Plastic Parts via Design of Experiments Analysis, Expert Systems with Applications, Vol. 36, 2009, pp. 10752-10759.
Chen, C. C., Su, P. L. and Lin, Y. C., Analysis and Modeling of Effective Parameters for Dimension Shrinkage Variation of Injection Molded Part with Thin Shell Feature Using Response Surface Methodology, The International Journal of Advanced Manufacturing Technology, Vol. 45, 2009, 1087.
Ozcelik, B., Sonat, I., Warpage and Structural Analysis of Thin Shell Plastic in The Plastic Injection Molding, Materials & Design, Vol. 30, 2009, pp. 367-375.
Chiang, Y. C., Cheng, H. C., Huang, C. F., Lee, J. L., Lin, Y., and Shen, Y. K., Warpage Phenomenon of Thin-Wall Injection Molding, The International Journal of Advanced Manufacturing Technology, Vol. 55, 2011, pp. 517-526.
Shuaib, N. A., Shayfull, M. G. Z. F., Zain, M. Z. M., and Nasir, S. M., Warpage Factors Effectiveness of a Thin Shallow Injection-Molded Part using Taguchi Method, International Journal of Engineering & Technology, Vol. 11, 2011, pp. 182-187.
Annicchiarico, D., Attia, U. M., and Alcock, J. R., A Methodology For Shrinkage Measurement in Micro-Injection Moulding, Polymer Testing, Vol. 32, 2013, pp. 769-777.
Annicchiarico, D., Attia, U. M., and Alcock, J. R., Part Mass and Shrinkage in Micro Injection Moulding: Statistical Based Optimisation Using Multiple Quality Criteria, Polymer Testing, Vol. 32, 2013, pp. 1079-1087.
Jafarian Jam, N., Saraeian, P., and Arab Aminabadi, A., Experimental and Numerical Investigation of Thickness on the Shrinkage and out of Roundness in Cylindrical Parts in Injection Molding Process, Journal of Simulation and Analysis of Novel Technologies in Mechanical Engineering, Vol. 6, 2013, pp. 45-57.
Sobhani, S., Jafarian Jam, N., Experimental Study of Packing Time and Melt Temperature Effects on Shrinkage of a Thin Sheet Made of Wood-HDPE Composite, Journal of Modern Processes in Manufacturing and Production, Vol. 5, 2016, pp. 5-15.
Masato, D., Rathore, J., Sorgato, M., Carmignato, S. and Lucchetta, G., Analysis of the Shrinkage of Injection-Molded Fiber-Reinforced Thin-Wall Parts, Materials & Design, Vol. 132, 2017, pp. 496-504.
Mohan, M., Ansari, M. N. M., and Shanks, R. A., Review on the Effects of Process Parameters on Strength, Shrinkage, and Warpage of Injection Molding Plastic Component, Polymer-Plastics Technology and Engineering, Vol. 56, 2017, pp. 1-12.
Singh, G., Verma, A., A Brief Review on Injection Moulding Manufacturing Process, Materials Today: Proceedings, Vol. 4, 2017, pp. 1423-1433.
Wang, Y., Chen, L. Y., Yang, X. M., Zhao, Y., Xu, Z. Y., and Wang, X. P., Numerical Optimization of Shrinkage and Warpage on the Injection Molding Process Parameters of Electrical Connector, Applied Mechanics and Materials, Vol. 868, 2017, pp. 183-191.
Hidayah, M. H. N., Shayfull, Z., Noriman, N. Z., Fathullah, M., Norshahira, R., and Miza, A. T. N. A., Optimization of Warpage on Plastic Part By Using Response Surface Methodology (RSM), AIP Conference Proceedings, Vol. 2030, 2018, pp. 020155.
La, M., Lee, J. G., and Park, S. J., Numerical and Experimental Investigation of Plastic Injection Molding of Micro-Engineered Surfaces, Polymer Engineering & Science, Vol. 58, 2018, pp. E73-E81.
Abbas Alizadeh, M., Hasanzadeh, R., Mohammadian, Z., Azdast, T., and Rostami, M., Experimental Study to Optimize Shrinkage Behavior of Semi-Crystalline and Amorphous Thermoplastics, Iranian Journal of Materials Science And Engineering, Vol. 15, 2018, pp. 41-51.
Sreedharan, J., Jeevanantham, A. K., Analysis of Shrinkages in ABS Injection Molding Parts for Automobile Applications. Materials Today: Proceedings, Vol. 5, 2018, pp. 12744-12749.
Wu, Y., Gong, Y., Cha, K. J., and Park, J. M., Effect of Microstructures on The Shrinkage of Injection Molding Product, Journal of Mechanical Science and Technology, Vol. 33, 2019, pp. 1357-1363.
Öztürk, E., Taifor, M., Yildirim, N., Qasim, B., and Vardar, M., Design and Manufacturing of Plastic Injection Mold to Produce High Density Polyethlene Injection Molded Spur Gear, 2019.
Khosravani, M. R., Nasiri, S., Injection Molding Manufacturing Process: Review of Case-Based Reasoning Applications, Journal of Intelligent Manufacturing, Vol. 31, 2020, pp. 847-864.
Song, Z., Liu, S., Wang, X., and Hu, Z., Optimization and Prediction of Volume Shrinkage and Warpage of Injection-Molded Thin-Walled Parts Based on Neural Network, The International Journal of Advanced Manufacturing Technology, Vol. 109, 2020, pp. 755-769.
Solanki, B., Singh, H., and Sheorey, T., Experimental and Numerical Studies of Shrinkage and Sink Marks on Injection Molded Polymer Gears, 2021.
Ramesh, M., Panneerselvam, K., Optimization for Injection Moulding process parameters towards Warpage and Shrinkage of HDPE-PBI Composites, IOP Conference Series: Materials Science and Engineering, Vol. 1183, 2021, pp. 012001.
Karagöz, İ., An Effect of Mold Surface Temperature on Final Product Properties in the Injection Molding of High-Density Polyethylene Materials. Polymer Bulletin, Vol. 87, 2021.
Karagöz, İ., Tuna, Ö., Effect of Melt Temperature on Product Properties of Injection-Molded High-Density Polyethylene, Polymer Bulletin, Vol. 78, 2021, pp. 6073-6091.
Leyva Porras, C., Balderrama Aguilar, A., Estrada Ávila, Y., Espelosín Gómez, I., Mendoza Duarte, M., Piñón-Balderrama, C., Saavedra Leos, M. Z., and Estrada Moreno, I., Injection Molding of Low-Density Polyethylene (LDPE) as a Model Polymer: Effect of Molding Parameters on the Microstructure and Crystallinity, Polymers, Vol. 13, 2021.
Roslan, N., Abd Rahim, S. Z., Abdellah, A. E., Abdullah, M. M., Błoch, K., Pietrusiewicz, P., Nabiałek, M., Szmidla, J., Kwiatkowski, D., Correia Vasco, J. O., Mat Saad, M. N., and Ghazali, M. F., Optimisation of Shrinkage and Strength on Thick Plate Part Using Recycled LDPE Materials, Materials, Vol. 14, 2021.
Kailasanathan, C. K., Saravanan, S. T., Natarajan, E., and Stalin, B., Polyoxymethylene/talc Composite: Investigation of Warpage, Mechanical and Thermal Properties for Thin Walled-Injection Molding Applications, Journal of Applied Polymer Science, 2021, n/a:51762.
Harper, C. A., Handbook OF Plastic Processes, a John Wiley & Sons, Inc., Publication, 2006.
