Predicting the location of weld line in microinjection‐molded polyethylene via molecular orientation distribution

Liao, Tao; Zhao, Xintong; Yang, Xiao; Whiteside, Ben; Coates, Phil; Jiang, Zhiyong; Men, Yongfeng

doi:10.1002/polb.24905

Cited by 6 publications

(10 citation statements)

References 30 publications

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“…10(c)). It is shown that higher mold temperature (RHCM) with higher melt temperature is benefit to divided melt fronts bonding better, which is consistent with the welding angle results [28].…”

Section: Engineering Application Of Rhcmsupporting

confidence: 84%

Optimization and application of temperature field in rapid heat cycling molding

Hao

2022

THERM SCI

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The rapid thermal cycle molding (RHCM) belongs to the injection mold temperature control system which is helpful to improve mold ability and enhance part quality. Despite many available literatures, RHCM does not represent a well-developed area of practice. The challenge is the uneven distribution of temperature in the cavity after heating, which mostly leads to defects on the surface of the products. In order to obtain uniform cavity surface temperature distribution of RHCM, the power of heating rods of the electric-heating system in an injection mold was optimized by the response surface method(RSM) in this work. The proposed optimization result was applied to design a complex RHCM injection mold with side core-pulling, holes and different thickness of an automotive part to verify its effectiveness by injection molding. Compared with initial design, the mold temperature uniformity was remarkably improvedby79%. Based on the optimization and injection molding numerical simulation results, the workable molding process to weaken the weld-lines effects on the quality was suggested and the practical injection molded parts were well produced.

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Section: Engineering Application Of Rhcmsupporting

confidence: 84%

Optimization and application of temperature field in rapid heat cycling molding

Hao

2022

THERM SCI

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“…13,27,41 The algorithms of these tools are robust and provide a good correlation with actual reality. The weld-line location prediction is well captured in these tools, however, to evaluate the strength of the weld-line for the plastic material non-linear algorithms are required and these flow simulation tools are mainly based on a linear algorithm, therefore prediction of weld-line strength still under development 15,42 and there are no standard results output available to get weld-line strength. The researchers worked on weld-line strength prediction topics by developing customized algorithms or using multi-scale simulation methods.…”

Section: Simulation Methodsmentioning

confidence: 99%

Weld‐lines and its strength evaluation in injection molded parts: A review

Jadhav,

Gaval,

Solanke

et al. 2023

Polymer Engineering & Sci

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Injection molding manufacturing is immensely popular nowadays because of its excellent manufacturability for complex designs produced from a wide range of different engineering plastic materials. Weld‐line is a defect that arises in injection molding when two or more flow fronts collide. The weld‐lines are undesirable from both aesthetic and functional points of view and their effect is different for varied materials, process conditions, loadings, forms of weld‐line, etc. The presence of a weld‐line weakens components locally due to insufficient intermolecular diffusion, v‐notch formation, fiber anisotropy, insufficient process conditions, and so on. When a component is under load, crack propagation usually begins with a weak weld‐line area. Therefore, the designer should anticipate the presence of weld‐lines and their strength to avoid failure of components during operation. In this article, the review of published research work on weld‐line formation during injection molding has been summarized. The review focuses on the phenomenon of weld‐line formation, the type of weld‐lines, and the importance of weld‐line evaluations. The theoretical, experimental, and computational approaches to analyzing weld‐line and its strength are covered in detail. At last, methods for reducing weld‐lines and increasing the strength of weld‐line area have been discussed. This review also gathers data on weld‐line strength with respect to different materials.Highlights Details of weld‐line formation and its types. Importance of weld‐line evaluation. Methods of weld‐line strength evaluation. Methods of reduction of the number of weld‐line and its effect. Summary of weld‐line strength for different material.

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“…In other work, Gao [19] used as initial inlet velocities In an injection process, the flow of molten polymer is mainly controlled by the injection pressure, which in turn is established by the injection machine [20] . Molds may contain many inlet channels and gates prior to the mold cavity [21] . This mold arrangement poses some difficulties in setting the cavity entry velocity, since injection of the molten polymer requires a high pressure for the flow to occur in the channels and fill all parts [22] .…”

Section: Introductionmentioning

confidence: 99%

A methodology for determination the inlet velocity in injection molding simulations

Miranda,

Rauber,

Vaz Jr.

et al. 2024

Polímeros

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The inlet velocity of thermoplastic in injection molds plays a crucial role in obtaining high-quality polymer parts and the final performance of the product. It is known that the way the polymer is injected into the mold can directly affect important properties, such as the distribution of internal stresses, the cooling rate and the formation of surface defects. However, there are injection molding machines that only control injection pressure and dosage, making it difficult to obtain the gate inlet velocity into the mold cavity. Besides, some molds have many injection channels as well as complex inlet geometries, which make a challenging task to identify the inlet velocity. This study presents numerical and experimental approaches on how to determine the entry velocity in thermoplastic injection molds. The main results showed that these methods are highly efficient and contribute to identifying the gate inlet velocity with good accuracy.

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Predicting the location of weld line in microinjection‐molded polyethylene via molecular orientation distribution

Cited by 6 publications

References 30 publications

Optimization and application of temperature field in rapid heat cycling molding

Optimization and application of temperature field in rapid heat cycling molding

Weld‐lines and its strength evaluation in injection molded parts: A review

A methodology for determination the inlet velocity in injection molding simulations

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