Products related to Deposition:
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Additive Friction Stir Deposition
Additive Friction Stir Deposition is a comprehensive summary of the state-of-the-art understanding on this emerging solid-state additive manufacturing technology.Sections cover additive friction stir deposition, encompassing advances in processing science, metallurgical science and innovative applications.The book presents a clear description of underlying physical phenomena, shows how the process determines the printing quality, covers resultant microstructure and properties in the as-printed state, highlights its key capabilities and limitations, and explores niche applications in repair, cladding and multi-material 3D printing. Serving as an educational and research guide, this book aims to provide a holistic picture of additive friction stir deposition-based solid-state additive manufacturing as well as a thorough comparison to conventional beam-based metal additive manufacturing, such as powder bed fusion and directed energy deposition.
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Atomic Layer Deposition for Semiconductors
This edited volume discusses atomic layer deposition (ALD) for all modern semiconductor devices, moving from the basic chemistry of ALD and modeling of ALD processes to sections on ALD for memories, logic devices, and machines.The section on ALD for memories covers both mass-produced memories, such as DRAM and Flash, and emerging memories, such as PCRAM and FeRAM.The section on ALD for logic devices covers both front-end of the line processes and back-end of the line processes.The final section on ALD for machines looks at toolsets and systems hardware.Each chapter provides the history, operating principles, and a full explanation of ALD processes for each device.
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Acid Rain - Deposition to Recovery
This book looks at the sources and composition of the atmosphere and rainfall, with particular attention on acidifying components and those that affect ecosystems.It further widens the subject to look at trace metals.It includes papers on the impact of deposition on soils and forests and the recovery of the natural environment.Work on critical loads makes a contribution to understanding the degree to which deposition must be reduced to limit its impact.
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Taiping Rebel : The deposition of Li Hsiu-ch'eng
Li Hsiu-ch'eng - the Loyal Prince - was the most important military leader on the rebel side during the last years of the Taiping Rebellion in China (1851–64).The Taiping Rebellion has been called the greatest popular revolt in modern history, and it came remarkably close to toppling the Ch'ing empire some fifty years before it was finally overthrown in 1911.Captured in June 1864 by government forces, Li Hsiu-ch'eng spent the final days before his inevitable execution writing a personal account of the Rebellion and his role in it.His Deposition is the fullest narrative by a participant and an invaluable historical document.The original manuscript of the Deposition was withheld by the government commander Tseng Kuo-fan and his descendants, and a shortened, bowdlerized version prepared for publication.Li himself was considered a great revolutionary hero in China until the Cultural Revolution when he was reassessed in a major public debate of considerable political significance.
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What is retrogressive erosion or retrogressive deposition?
Retrogressive erosion is the process by which a river or stream cuts backward into the landscape, causing the erosion of the land and the formation of steep-sided valleys or gullies. This can occur due to changes in the river's flow or the underlying geology of the area. Retrogressive deposition, on the other hand, is the process by which sediment is deposited in a backward or upstream direction, often due to a decrease in the river's flow or changes in the sediment load. Both processes can significantly alter the landscape and contribute to the shaping of the Earth's surface over time.
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What is soot deposition on the wall?
Soot deposition on the wall refers to the accumulation of fine black particles on the surface of a wall. This soot is typically a byproduct of incomplete combustion of carbon-based fuels, such as wood, coal, or oil. It can be caused by sources such as fireplaces, candles, cooking, or smoking. Soot deposition can create unsightly black stains on walls and ceilings and may also pose health risks if inhaled. Regular cleaning and proper ventilation can help prevent soot deposition in indoor spaces.
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How does copper deposition work according to Faraday's law?
Copper deposition according to Faraday's law occurs through the process of electrolysis. When a copper salt solution is electrolyzed, an electric current is passed through the solution, causing copper ions to gain electrons at the cathode and deposit as solid copper metal. Faraday's law states that the amount of substance deposited is directly proportional to the amount of electricity passed through the solution, and is also related to the equivalent weight of the substance. This allows for precise control over the amount of copper deposited based on the amount of electricity passed through the solution.
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How does the electrolytic deposition of Berlin brown work?
The electrolytic deposition of Berlin brown involves using an electrolyte solution containing a specific compound, such as potassium ferrocyanide. When an electric current is passed through the solution, the compound dissociates into its ions. The ferrocyanide ions are attracted to the cathode, where they gain electrons and form insoluble Berlin brown precipitate. This precipitate then coats the cathode, resulting in the deposition of Berlin brown.
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Salt in the Earth Sciences : Evaporite Rocks and Salt Deposition
A comprehensive review of salt deposition in sedimentary environments worldwide Salt is formed when water rich in evaporite minerals accumulates on the Earth’s surface and then evaporates.Over time, pressure and tectonics change the structure and shape of salt layers.Recent technological advances have improved the interpretation and modeling of subsurface salt structures. Salt in the Earth Sciences: Evaporite Rocks and Salt Deposition presents a global overview of salt deposition and deformation in sedimentary basins, synthesizing data analysis, observations, theories, and modeling. Volume highlights include: Overview of salt use by humans from prehistoric times to the modern industrial worldChemical and physical principles of evaporite deposition in sedimentary basinsEffects of gravity and tectonic forces on rock salt deformationDevelopment of salt structures in orogenic belts and deep basinsSeismic interpretation methods for identification of subsurface salt structuresKey sedimentological models for evaporite deposition in continental and marine environmentsGlobal examples ranging from modern hypersaline rift lakes to ancient marine salt basins The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity.Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals.
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Agent of Change : The Deposition and Manipulation of Ash in the Past
Ash is an important and yet understudied aspect of ritual deposition in the archaeological record of North America.Ash has been found in a wide variety of contexts across many regions and often it is associated with rare or unusual objects or in contexts that suggest its use in the transition or transformation of houses and ritual features.Drawn from across the U.S. and Mesoamerica, the chapters in this volume explore the use, meanings, and cross-cultural patterns present in the use of ash. and highlight the importance of ash in ritual closure, social memory, and cultural transformation.
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CVD diamond Single Crystal Diamond Blanks Industrial Grade Chemical Vapour Deposition CVD Synthetic
CVD diamond Single Crystal Diamond Blanks Industrial Grade Chemical Vapour Deposition CVD Synthetic
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Additive Manufacturing for Plastic Recycling : Efforts in Boosting A Circular Economy
This book provides a comprehensive and up-to-date discussion of breakthroughs on additive manufacturing for plastic material recycling to boost a circular economy.It offers new ideas of combining/hybridizing processing methods that work as a source of information for manufacturers in making new and strategic product development plans.Additive Manufacturing for Plastic Recycling: Efforts in Boosting a Circular Economy provides a critical, comprehensive, methodological, and strong state-of-the-art work on the processing of thermoplastic and thermosetting along with new directions and applications.It describes the common and hybrid approaches of recycling processes and includes theoretical and practical ideas of combining/hybridizing processing methods with the use of fused deposition modelling, which is one of the low-cost additive manufacturing techniques.The book also discusses mechanical twin-screw extrusion followed by case studies for developing hybrid composite structures for biomedical and structural applications.Recent innovations in melt processing for recycling and the fundaments, process parameters investigations, and applications for new product development are also presented.This book is a first-hand reference source of information for academic scholars and commercial manufacturers for making strategic development plans for new product development.
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I need help with the calculation of deposition in electrolysis.
In electrolysis, the deposition of a substance on an electrode can be calculated using Faraday's laws of electrolysis. The amount of substance deposited is directly proportional to the quantity of electricity passed through the electrolyte. The formula for calculating the amount of deposition is given by mass = (current x time x atomic mass) / (charge of electron x Faraday's constant). By using this formula, you can calculate the amount of deposition in electrolysis.
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What is the difference between electrode deposition and electrode sedimentation?
Electrode deposition and electrode sedimentation are both processes used to coat a substrate with a layer of material through electrochemical methods. The main difference between the two is the mechanism by which the material is deposited onto the substrate. In electrode deposition, the material is directly deposited onto the substrate through the application of an electric current, while in electrode sedimentation, the material is first dispersed in a solution and then allowed to settle onto the substrate through gravity or other external forces. Overall, electrode deposition is a more controlled and precise process, while electrode sedimentation is more reliant on the settling behavior of the dispersed material.
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How do erosion, transportation, and deposition interact in the upper course of a river?
In the upper course of a river, erosion is the dominant process as the river cuts through the landscape, creating a V-shaped valley. As the river erodes the surrounding rock and soil, it transports the sediment downstream through the process of transportation. The sediment is then deposited along the riverbanks and in the riverbed as the river's velocity decreases, leading to the process of deposition. These three processes interact to shape the landscape of the upper course of a river, creating a dynamic and ever-changing environment.
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How does plastic recycling work?
Plastic recycling involves collecting used plastic items, sorting them by type and color, cleaning and shredding them into small pieces. These pieces are then melted down and formed into pellets, which can be used to create new plastic products. The process helps to reduce the amount of plastic waste in landfills and minimizes the need for new plastic production, thus conserving resources and reducing environmental impact.
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