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ToughBuild Genuine Deformation Scraper Art Knife Wall Paper Deformation Metal Heavy Deformation Tool
ToughBuild Genuine Deformation Scraper Art Knife Wall Paper Deformation Metal Heavy Deformation Tool
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ToughBuild Genuine Deformation Scraper Art Knife Wall Paper Deformation Metal Heavy Deformation Tool
ToughBuild Genuine Deformation Scraper Art Knife Wall Paper Deformation Metal Heavy Deformation Tool
Price: 14.29 € | Shipping*: 0 € -
Confidentiality, Privacy, and Data Protection in Biomedicine : International Concepts and Issues
Featuring contributions from leading scholars of health privacy law, this important volume offers insightful reflection on issues such as confidentiality, privacy, and data protection, as well as analysis in how a range of jurisdictions—including the US, the UK, Europe, South Africa, and Australia—navigate a rapidly developing biomedical environment. While the collection of personal health information offers the potential to drive research and innovation, it also generates complex legal and ethical questions in how this information is used to ensure the rights and interests of individuals and communities are respected.But in many ways laws have struggled to keep pace with technological developments.This book therefore seeks to fill a lacuna for legal insight and reflection.Over three parts, the book first explores the conceptual landscape which law and legal institutions must contend, and then turns to examine practical issues such as the GDPR, secondary use of data for research, genomic research, and data trusts. With cutting-edge analysis drawing on domestic and international case law, legislation, and policy, this comprehensive volume will prove fascinating reading for all students and researchers interested in this evolving and contentious area of study.
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Severe Plastic Deformation Technology
This book is the first to cover the engineering aspects of severe plastic deformation (SPD) technology used to refine grain structure in metallic materials.The fundamentals of both the well-known and novel SPD processes are explained and the engineering know-how required for successful implementation of these processes revealed.The principles of each SPD technique are explained and insight provided into the mechanics of material deformation and microstructural changes.The equipment used for SPD processing is described including machines and tools.The book covers the most popular SPD process of equal channel angular pressing, ECAP and its incremental version, I-ECAP.A separate chapter is devoted to tooling used in ECAP/I-ECAP.Another popular SPD process is high pressure torsion (HPT), which produces very good results in terms of refining grain structure but faces some technical challenges.A less known SPD process is cyclic extrusion compression (CEC), which is thoroughly explained as is twist extrusion (TE) which is a relatively new process that is showing good potential.Finally, an original SPD process of accumulated roll bonding (ARB), capable of refining grain structure in sheets, is discussed. The book is intended for students and researchers working in the field of refining grain structure of metals by SPD.By explaining the engineering aspects of SPD, it enables the best SPD process to be chosen for a given application thus avoiding time-consuming and wasteful trials.It also encourages metal forming researchers and material scientists to work together in order to improve existing and develop new SPD processes.Finally, this book is also for industrial engineers, who will ultimately be using the SPD technology for mass production of metals with refined grain structure and improved properties.
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What is deformation energy?
Deformation energy is the energy required to change the shape or size of a material. When a material is subjected to external forces, it undergoes deformation, which involves the rearrangement of its atomic structure. This process requires energy to overcome the forces holding the atoms together. Deformation energy is important in understanding the mechanical behavior of materials, such as their ability to withstand stress and strain.
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What is the temperature for glass deformation?
The temperature for glass deformation is typically around 600-700 degrees Celsius (1112-1292 degrees Fahrenheit). At this temperature range, the glass becomes soft and pliable, allowing it to be shaped or molded into different forms. It is important to note that the exact temperature for glass deformation can vary depending on the type of glass and its composition.
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What is the formula for deformation energy?
The formula for deformation energy is given by the equation: Deformation Energy = 1/2 * k * x^2, where k is the spring constant and x is the amount of deformation or displacement from the equilibrium position. This formula represents the potential energy stored in a deformed object, such as a spring, due to the work done in deforming it. The deformation energy increases quadratically with the amount of deformation, reflecting the relationship between the force applied and the resulting displacement.
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How does a headset cause head deformation?
A headset can cause head deformation if it is worn too tightly or for extended periods of time. The pressure from the headband and ear cups can compress the soft tissues and bones of the head, leading to temporary or even permanent deformation. Prolonged use of a headset that is too tight can also cause discomfort, headaches, and even damage to the skin and hair on the head. It's important to ensure that the headset is properly adjusted and not worn too tightly to avoid these issues.
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2pc Ultimate Privacy Shield Confidentiality Stamp - High-Security Smudge-Proof Design for Document
2pc Ultimate Privacy Shield Confidentiality Stamp - High-Security Smudge-Proof Design for Document
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2pc Ultimate Privacy Shield Confidentiality Stamp - High-Security Smudge-Proof Design for Document
2pc Ultimate Privacy Shield Confidentiality Stamp - High-Security Smudge-Proof Design for Document
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Children Deformation Toy Creative Transformation Robot Figure Pen Robot Deformation Pen Kids Robot
Children Deformation Toy Creative Transformation Robot Figure Pen Robot Deformation Pen Kids Robot
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Children Deformation Toy Creative Transformation Robot Figure Pen Robot Deformation Pen Kids Robot
Children Deformation Toy Creative Transformation Robot Figure Pen Robot Deformation Pen Kids Robot
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What are examples of the deformation of forces?
Examples of the deformation of forces include stretching a rubber band, compressing a spring, bending a metal rod, and twisting a rope. In each of these examples, an external force is applied to the material, causing it to change shape or deform. This deformation occurs due to the internal forces within the material resisting the external force applied to it.
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What are examples of plastic and elastic deformation?
An example of plastic deformation is when a metal wire is bent and does not return to its original shape. This is because the metal has undergone permanent deformation. On the other hand, an example of elastic deformation is when a rubber band is stretched and then returns to its original shape once the force is removed. This is because the rubber band has undergone temporary deformation, but has not permanently changed its shape.
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How to calculate the stress tensor in deformation?
To calculate the stress tensor in deformation, one must first determine the forces acting on a material in various directions. These forces can be obtained through experimental measurements or theoretical calculations. Once the forces are known, the stress tensor can be calculated by dividing the force acting on a specific surface area by that area. This process is repeated for all possible orientations to obtain the full stress tensor, which describes the stress state at every point within the material undergoing deformation.
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What is the difference between plastic and elastic deformation?
Plastic deformation is a permanent change in shape or size of a material when stress is applied beyond its elastic limit, while elastic deformation is a temporary change that is reversible when the stress is removed. Plastic deformation involves the movement of dislocations within the material's structure, causing a permanent change in shape, while elastic deformation involves the stretching or compressing of the material's atomic bonds, which can return to their original state once the stress is released. Plastic deformation is typically seen in ductile materials like metals, while elastic deformation is more common in materials like rubber or springs.
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