Implementing continuous process improvement methods in a mid-size plastic company

Chongwatpol, Narongsawas.

January 2006

Thesis, PlanB (M.S.)--University of Wisconsin--Stout, 2006. / Includes bibliographical references.

The effect of mechanical mold vibration on the characteristics of aluminum alloys

Deshpande, Jayesh U.

January 2006

Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: Hot tearing; Microstructure; Aluminum casting. Includes bibliographical references (leaves 110 - 113).

Über Expansion und Kontraktion von Goldlegierungen und Ihren Ausgleich beim Guss durch entsprechende Massnahmen Inaugural-Dissertation /

Appel, Erwin,

January 1938

Thesis (doctoral)--Ludwig-Maximilians-Universität München, 1938.

Methodologies for resin flow prediction and manipulation in liquid composite molding processes

Lawrence, Jeffrey M.

January 2005

Thesis (Ph.D.)--University of Delaware, 2005. / Principal faculty advisor: Suresh G. Advani, Dept. of Mechanical Engineering. Includes bibliographical references.

Hot embossing-injection molding and puncture characterization of polymer hypodermic needle /

Shek, Ka To.

January 2007

Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2007. / Includes bibliographical references (leaves 82-85). Also available in electronic version.

Metal casting the fire of art and industry /

Entwistle, Jeremy.

January 2007

Thesis (M.F.A.)--West Virginia University, 2007. / Title from document title page. Document formatted into pages; contains iii, 45 p. : ill. (some col.). Vita. Includes abstract. Includes bibliographical references (p. 43).

A Six Sigma Approach to Implementing Conformal Cooling on Existing Processes in Injection Molding

Jack, William Josiah

01 August 2017

Injection molding is one of the most common methods of mass production. After injecting molten plastic into a mold, the heat must leave the plastic material, enter the mold steel, enter the coolant, and exit the mold. This heat flow is critical to producing high quality parts rapidly. As plastic cools, the plastic shrinks. Uneven cooling causes uneven shrinkage which can cause the part to warp from the resulting internal stresses or create sink marks on the part. Thus the effect of uneven cooling is lower part quality, both in appearance and in dimension. Standard or conventional cooling channels are straight-drilled holes arranged such that they intersect and connect to form a loop for coolant, typically water, to flow through. This allows the mold to act as a heat exchanger, transferring heat to the coolant and carrying heated coolant away from the mold. While standard cooling channels have been used widely in the injection molding industry for their manufacturability and proven results, other methods have been developed for creating molds with cooling channels of any desired path or shape. These channels, called conformal due to how they conform to the shape of the part, provide uniform cooling, eliminate or reduce the quality issues of warpage and shrinkage, and provide faster, more economical cycle times. Conformal cooling is cannot be produced only by subtractive manufacturing methods that remove material from raw stock but rather through additive or hybrid manufacturing techniques that add material in layers of powder, sections, or sheets. Bonded sheet layer mold inserts can be made of any size and are currently the only feasible way of making large, conformally-cooled molds. Presented is a Six Sigma approach for implementing conformal cooling in existing molds to achieve the benefits of higher part quality and fast cycle times. Feasibility considerations include existing mold features such as slides and ejectors, choice of channel diameter, and the cooling channel path. Cost justification considerations include assessing part quality cost impact through calculation of the costs of poor quality and assessing machine capacity as relates to cycle time. With the approach presented, an injection molding company should be able to assess feasibility and cost effectiveness of implementing conformal cooling on its molds.

additive

conformal

cooling

dmls

injection

molding

Singular behaviour of Non-Newtonian fluids

Mennad, Abed

January 1999

Thesis (MTech (Mechanical Engineering))--Peninsula Technikon, 1999 / Since 1996, a team at the Centre for Research in Applied Technology (CRATECH) at Peninsula Technikon, under NRF sponsorship and with industrial co-operation, has been involved in the simulation of Non-Newtonian flow behaviour in industrial processes, in particular, injection moulding of polymers. This study is an attempt to deal with some current issues of Non-Newtonian flow, in small areas, from the viewpoint of computational mechanics. It is concerned with the numerical simulation of Non-Newtonian fluid flows in mould cavities with re-entrant corners. The major complication that exists in this numerical simulation is the singularity of the stresses at the entry of the corner, which is responsible for nonintegrable stresses and the propagation of solution errors. First, the study focuses on the derivation of the equations of motion of the flow which leads to Navier- Stokes equations. Thereafter, the occurrence of singularities in the numerical solution of these equations is investigated. Singularities require special attention no matter what numerical method is used. In finite element analysis, local refinement around the singular point is often employed in order to improve the accuracy. However, the accuracy and the rate of convergence are not, in general, satisfactory. Incorporating the nature of singularity, obtained by an asymptotic analysis in the numerical solution, has proven to be a very effective way to improve the accuracy in the neighborhood of the singularity and, to speed up the rate of convergence. This idea has been successfully adopted in solving mainly fracture mechanics problems by a variety of methods: finite difference, finite elements, boundary and global elements, and spectral methods. In this thesis, the singular finite elements method (SFEM), similar in principle to the crack tip element used in fracture mechanics, is proposed to improve the solution accuracy in the vicinity of the singular point and to speed up the rate of convergence. This method requires minor modifications to standard finite element schemes. Unfortunately, this method could not be implemented in this study due to the difficulty in generating the mesh for the singular element. Only the standard finite element method with mesh refinement has been used. The results obtained are in accordance with what was expected.

Fluid mechanics

Injection molding of plastics

Non-Newtonian fluids

The convective melting and coalescence of polymer granules

Malguarnera, Salvatore Chris.

January 1978

Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 1978 / Vita. / Includes bibliographical references. / by Salvatore C. Malguarnera. / Ph. D. / Ph. D. Massachusetts Institute of Technology, Department of Mechanical Engineering

Mechanical Engineering

Polymers Thermal properties.

Plastics Molding.

Optimalizace technologie výroby plastového uzávěru tuby / Optimization of production technology for plastic cap tube

Majerčíková, Erika

January 2014

This thesis deals with the optimization of the production technology of the cap tube made by injection molding. Series production is set at 5 000 000 units per year; the minimum time of the production is 5 years. A literary study is developed, focusing on the technology of injection molding in molds including the possibilities of the optimization of the production by changing the structure of the mold. The practical part of the thesis is devoted to the optimization of existing mold with cold runner system for the production of the cap tube, using the hot runner system supplied by Synventive. The change of the structure of the mold involves changing the three plate mold to a two plate mold. It is about changing the fixed part of the mold in which the hot runner system is placed; it is composed of standards parts of the company HASCO. Based on the technological parameters the injection machine Krauss Maffei KM 80-380 CX is chosen. There is a technical-economical evaluation of the optimization of the production by using the hot runner system at the end of the thesis.