Institute for Systems Research

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Author: search.filters.author.Zhang, G.

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    A Comparative Machinability Study of Dental Materials
    (1997) Zhang, G.; Rekow, D.; Thompson, V.; ISR
    This paper presents results obtained from a comparative machinability study of newly invented ceramic materials for dental restorations. With the microstructure being the dominant factor on crack initiation and propagation during the fabrication process, the objective of this study is to identify the relationship between the microstructural characteristics and damage created during machining which could compromise the reliability of ceramic-made dental restorations. Glass ceramic material with tailored characteristics of microstructure is used in this study. The machining platform is milling operations where proper tool geometry and machining parameters are selected. Empirical models to correlate the cutting force and degradation of flexure strength with machining parameters are established. The aims of the research are to reduce surface cracking to yield improved surface finish (smooth < 2 mm) and to lessen strength degradation after machining. The study consists of four steps, including characterization of microstructure, identification of machining parameters, on-line monitoring of the machining operations, and evaluation of flexure strength degradation. Contributions of this study are the establishment of a procedure for carrying out the machinability assessment, and the establishment of empirical models relating the cutting force and fracture strength degradation to the cutting conditions.
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    Hardness Assessment of Human Enamel
    (1997) Zhang, G.; Ng, S.J.; Le, Dung T.; Young, D.; ISR
    This paper presents results from investigating indentation impressions on human enamel under micro-hardness tests. The experiments of hardness testing were performed on a microhardness indentation machine under different loading conditions. Images of indentation impressions were obtained using an environmental scanning electron microscope. Geometrical shapes of hardness indentations were visualized in three-dimentional space using computer graphics. Quantitative information was obtained through atomic force measurements to characterize ﲰile-up , ﲳink-in , and elastic recovery of enamel. Special efforts have been made to study the microstructual effect of the calcified rods orientations on the fracture patterns formed during the hardness tests. Significant finding include that the occlusal surface demonstrates much stronger resistance to the indentation force than does the buccal surface and shows 40% elastic recovery after indentation. A new formula to determine hardness value has been proposed. By incorporating the reversible deformation into the evaluation, a normalized hardness measurement can be made to form a basis for comparison and other investigations where hardness has its unique role to play.
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    Microstructural Effects on the Machining Performance of Dental Ceramics
    (1997) Le, Dung T.; Qi, L.; Zhang, G.; ISR
    Constraints of mechanical, thermal, and chemical properties are making ceramics the material choice for industrial and dental applications. The quality of a machined surface of ceramics is fundamentally dependent on the response of the material to the machining process. This paper presents a combined analytical and experimental study with focus on optimizing the machining performance of dental ceramics -- DICOR/MGC -- with three distinguished microstructures. The study starts from analyzing the microstructural characteristics to searching for the machining conditions that provide satisfactory performance in terms of acceptable flexural strength. Evidence gained from the cutting force measurements and evaluation of fracture strength degradation indicates that the control of micro-scale fracture formed on the machined surface, with microstructural characteristics being considered, is the key factor which dominates the machining performance.
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    Economic Evaluation of Rapid Prototyping Technology for the Development of New Products
    (1997) Zhang, G.; Richardson, M.; Surana, R.; ISR
    This paper presents results obtained from a study of cost structure and cost estimation for applying the rapid prototyping technology in the process of developing new products. The laser- based rapid prototyping technology is creating a unique platform for the production of physical models using the solid free form fabrication technology. However the high initial equipment investment calls for a careful balance between economic gain and losses. In this study a cost hierarchical structure is proposed using a combined industrial and, engineering approach, which decomposes the process of rapid prototyping into four stages: 3D solid modeling, data preparation for free-form fabrication, part building, and quality inspection. A case study utilizing the stereolithography process to build physical prototypes for constructing 3D tactile graphics is presented to demonstrate the cost structure and justify the economical feasibility of using rapid prototyping in the process of developing new products.
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    Teaching New Product Development through a Product Engineering Approach
    (1997) Zhang, G.; Cunniff, P.; Dally, James W.; ISR
    This paper describes experiences gained in teaching a new course aimed at providing junior-level undergraduate engineering students with some of the fundamentals needed in developing new products. A six-stage engineering approach to develop a new product is proposed. Through a cooperative education partnership arrangement with Block & Decker, a new product is introduced to the class. Engineers from this corporation present a series of lecture on some their real-life experience with this product. The students work as teams to complete assigned course projects related to the new product development. During the redesign, Pro/ENGINEER and a method of rapid prototyping are introduced. These tools aid the students in inventing new components and in visualizing their ideas in the learning process. An extremely positive response from the participating students reflects upon the innovative approach developed in this course.
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    Assessment of Non-Linear Dynamics of Material Removal on Surface Integrity
    (1997) Zhang, G.; Ng, S.J.; Le, Dung T.; ISR
    In this chapter, we present our research on the study of non- linear dynamics observed during the machining of ceramic materials. We will focus on both innovation in machining technology and development of non-destructive evaluation methods to assess machining performance. Three aspects of our work are presented in the following sections. They are, 1) Submerged Precision Machining, and 2) Scanning Electron Microscopy Analysis. Aspect 1 relates to an innovative approach to machining, while aspects 2 relates to evaluation methodologies for surface characterization. These methods and techniques have been developed to achieve cost-efficient machining as well as high-quality surface finish in ceramic material.
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    Characterization of Indentation Impressions on Human Enamel For Hardness Measurement
    (1997) Zhang, G.; Le, Dung T.; Tucker, S.R.; Ng, S.J.; ISR
    This paper presents results from investigating indentation impressions on human enamel under micro-hardness tests. The experiments of hardness testing were performed on a microhardness indentation machine under different loading conditions. Images of indentation impressions were obtained using an environmental scanning electron microscope. Geometrical shapes of hardness indentations were visualized in three-dimensional space using computer graphics. Quantitative information was obtained through atomic force measurements to characterize "pile-up", "sink-in", and elastic recovery of enamel. Special efforts have been made to study the microstrucutual effect of the calcified rods orientations on the fracture patterns formed during the hardness tests. Significant findings include that the occlusal surface demonstrates much stronger resistance to the indentation force than does the buccal surface and shows 40% elastic recovery after indentation. A new formula to determine hardness value has been proposed. By incorporating the reversible deformation into the evluation, a normalized hardness measurement can be made to form a basis for comparison and other investigations where hardness has its unique role to play.

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    A Taste of the Future: The Summer Engineering Program
    (1994) Zhang, G.; Berman, M.; Fines, J.; ISR
    The problem of increasing engineering enrollment of female students to meet the national need has been of great concern to engineering educators. This paper presents the experience gained from the 1993 summer engineering program. Thirty female high school students in grade 11 participated. The program teaches engineering design through a product realization process and introduced engineering disciplines through laboratory work and field trips. With a stimulating first experience in engineering, the participating students built up their confidence. Evaluation results show that the program has been extremely successful in encouraging female students to consider choosing the path to an engineering career.
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    Design for Manufacture by Multi-Enterprise Partnerships
    (1994) Nau, D.; Ball, Michael O.; Gupta, Sonjai K.; Minis, Ioannis; Zhang, G.; ISR
    Recent world-wide political and financial events have intensified the need to renew the competitiveness of the US manufacturing industry. The means for enabling competitiveness include fast response to the market needs for new designs and re-designs, and the ability to manufacture products at the right quality and at competitive costs. To pursue market and technology opportunities effectively, US commercial and defense industries will be relying increasingly on multi-enterprise partnerships [12]. Vertical partnering combines the strengths of multiple firms in product design, manufacture, after sales support and customer service, in order to launch superior products in the global market.

    To support effective partnering, new approaches will be needed for integrating the activities of design, planning, and production. Furthermore, it is important to address both the fundamental modeling of design, process planning, and production planning in ways that account for the capabilities of potential manufacturing partners, and the development of optimization procedures to address the underlying decision problems. This paper elaborates on these issues and discusses approaches for addressing them.

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    Evaluation of Product and Process Design in Electronics
    (1992) McMahon, M.; Prasannappa, R.; Baras, John S.; Zhang, G.; Kebede, Abraham; Mendicino, P.; ISR
    This paper describes techniques and an implementation for managing costs and quality of electronics products during design. Emphasis is given to the development of an economic model to estimate the production costs at the assembly level. The unique feature of this system is to bring the experience of a manufacturing engineer, quality engineer, and cost controller into the hands of a designer. Such an early integration of manufacturing knowledge creates a concurrent engineering environment which improves product quality and reduces cost through careful monitoring of the design phase.