Organizational Change and Forging Bonding Relationships Michelle Santana‚ Viviana Plaza‚ Susan Taylor‚ Lucia Romero‚ Kimberly Small‚ Jessica Weigel Zakarian University of Phoenix Creating Change Within Organizations HCS587 Laura Rainey October 6‚ 2014 Organizational Change and Forging Bonding Relationships Implementing Organizational Change states that forging bonding relationships in an organization is critical to success. How would you do this in challenging economic times when cost-cutting measures
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FORGING * Forging is a process in which material is shaped by the application of localized compressive forces exerted manually or with power hammers‚ presses or special forging machines. * The process may be carried out on materials in either hot or cold state. FORGING PROCESSES are: 1. Open – die hammer forging * It is the simplest forging process which is quite flexible but not suitable for large scale production. It is a slow process. The resulting size and shape of the forging
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Chapter 2 Forging Subjects of interest • Introduction/objectives • Classification of forging processes - Hammer or drop forging - Press forging - Open-die forging - Closed-die forging • Calculation of forging loads • Effect of forging on microstructure • Residual stresses in forgings • Typical forging defects Suranaree University of Technology Tapany Udomphol Jan-Mar 2007 Objectives • This chapter provides fundamental of metal working process for forging in order to understand
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min scaling and decarburization. 3. Lowers the strength and therefore affects forging process. Over heating. 1. Austenite grains becomes excessively large which impairs physical properties. 2. Boundary oxidation. BURNING 1. An extremely overheated condition that causes more fusible matter of the steel to melt. 2. Usually at the austenite boundary leads to hot shortness. Rate of heating to forging temperature . Time of heating --> centre temperature
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CHAPTER 2 Forging Processes: Variables and Descriptions Manas Shirgaokar 2.1 Introduction In forging‚ an initially simple part—a billet‚ for example—is plastically deformed between two tools (or dies) to obtain the desired final configuration. Thus‚ a simple part geometry is transformed into a complex one‚ whereby the tools “store” the desired geometry and impart pressure on the deforming material through the tool/material interface. Forging processes usually produce little or no scrap
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03/04/13 Hydrogen Bonding Purpose: The purpose of this investigation is to test the concept of hydrogen bonding. Hypothesis: Given the concept of hydrogen bonding I predict that the bulky glycerol molecules limits the number of possible hydrogen bonds. If water is mixed with glycerol should make it possible for water to form many hydrogen bonds with the glycerol molecules‚ causing it to become a exothermic reaction. Because glycerol has more possibilities for hydrogen bonding I believe that
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process known as bonding. In chemistry there are various types of bonding. They are all a result of electrons interacting with each other. Atoms interact by transferring‚ sharing or rearranging their electrons in a way that allows them to achieve a full shell of electrons which makes the atom stable. In compounds‚ there are two main types of bonding; ionic bonding and covalent bonding. Ionic bonding is usually found in compounds of a metal and a non-metal. This type of bonding involves the complete
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dipoles we may derive electronegativity data useful for predicting the bond dipoles of bonds that may have never been made before. From these properties of bonds we will see that there are two fundamental types of bonds--covalent and ionic. Covalent bonding represents a situation of about equal sharing of the electrons between nuclei in the bond. Covalent bonds are formed between atoms of approximately equal electronegativity. Because each atom has near equal pull for the electrons in the bond‚ the electrons
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Chemical Bonding Chemical compounds are formed by the joining of two or more atoms. A stable compound occurs when the total energy of the combination has lower energy than the separated atoms. The bound state implies a net attractive force between the atoms ... a chemical bond. The two extreme cases of chemical bonds are: Covalent bond: bond in which one or more pairs of electrons are shared by two atoms. Ionic bond: bond in which one or more electrons from one atom are removed and attached to
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Alfredo Brizuela BSC1005 M-F (12-1) Bonding Atoms to Form Molecules 1) Observe a) Atoms bond together to form molecules b) Some molecules are inorganic (non-living). c) Some molecules are organic (are/were living)‚ containing all or part of Mr. Cohn. d) Atoms can bond ionically‚ whereby an atom gives up valence electrons and becomes a + ion‚ and another atom receives those electrons and becomes a – ion. The overall charge on the molecule then becomes zero.
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