Found 23 in court s machinery Experts and Expert Witnesses.
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| Principal of firm established to provide independent investigation and expert testimony utilizing over 45 years of professional experience in mechanical and safety engineering, research, inspection and testing. Primarily involved with studying performance, determining defects, reconstructing accidents, evaluating construction, analyzing failures, discovering hazards, confirming intended use, misuse, abuse and/or safety violations in Consumer Products, Industrial Equipment, Construction Materials...
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| EW #858 has 45 years expertise in engineering, accident reconstruction, lemon law inspection and testimony and provides design, consulting and custom manufacturing of small boats.
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| Qualified as an expert witness in civil and criminal courts.
Injury biomechanics in automotive crashes, aircraft crashes, elevator failures, sports impacts and slips and falls.
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| Insurance-Commercial-Personal-Life.Agent/Broker Standard of care. Auto,Property,Liab, Policy Issuance, Claims, Audits, etc.
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| Industrial & Utility power generation and cogeneration expert. 30 years hands-on experience with plants from 100 kW to 1,000 MW. Extensive International experience arbitrations & litigations expert.
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| This expert has over 45 years of experience in the mechanical engineering field. His experience includes the design of mechanical systems for the building industry as well as forensic engineering
analysis of mechanical systems and components....
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| Expertise in electrical devices and electronics technology.
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| Campos & Stratis is an innovative leader in the field of forensic accounting, economic damage analyses, intellectual property valuation, financial impact analyses and litigation services. We assist our clients in many aspects of intellectual property management - from the initial strategy development to expert witness testimony.
Our background, knowledge and experience of the litigation process, will aid the court’s clear understanding of complex events and concepts....
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| 30 years experience as a machine design and forensic engineer.
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| Global leader in technical consulting and education in the fields of lubrication, tribology, machine reliability, and oil analysis.
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| 40+ Years experience as a Mechanical Engineer dealing with all manner of machinery and vehicles.
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| ACCREDITED & CERTIFIED MASTER MARINE SURVEYOR. YACHTS, SHIPS, TUGS, BARGES AND SCHOONERS. COMPUTER ENGINE ANALYSIS AND COMPRESSION TESTING ON ALL ENGINES.
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| Dealer Expert, Automotive Industry Expert: Liability and damages in manufacturer-dealer and customer-dealer lawsuits
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| Litigation and appraisal experience nationally and internationally since 1974
in the areas of real estate, business and machinery & equipment.
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| We are Accredited and Certified personal property appraisers and expert witnesses. We over thirty years expersience.
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| EW #2855 offers Technical Expert Services for electrical, electronic, PLC, and microprocessor based control systems used for Industrial applications, Automation, Robotics, and Production Machinery.
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| 35 years of international experience in safety, personal injury, products liability, warnings, human factors and manufacturing.
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| EW #3494 is a leading authority in field of aviation and various aspects of flight operations.
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| Expertise in business valuation, quantification of damages, accountants negligence, and financial modelling. Insurance experience while working two years for KPMG, Bermuda.
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| 23 years Coast Guard service which includes extensive experience in marine operations, investigations and Marine Safety programs.
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| German official approved and sworn expert witness for IT-Systems (computer forensic hardware software internet telecommunication digital photo.), entitled by chamber of commerce, Germany, Switzerland
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| Ph.D.- Computer Science, Stanford U.; over 30 years in computer systems, software, input/output, and hard disk; experience with Intel, Microsoft and many others; neutral advisor to two federal judges.
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| EW #452 has his P.E. and ss an expert witness his engineering analysis has won two million-dollar lawsuits. Available for depositions, and court testimonies.
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| Looking for a in court s machinery expert?
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Find In Court S Machinery experts and consultants for In Court S Machinery litigation support at www.expertwitness.com. Available to be In Court S Machinery expert witnesses and provide In Court S Machinery forensic consulting in In Court S Machinery litigation, in addition prepare In Court S Machinery expert witness reports for use in deposition and/or in-court trial testimony.
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Categories To Find "In Court S Machinery" Experts:
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AGRICULTURE |
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Agriculture (a term which encompasses farming) is the art, science or practice of producing food, feed, fiber and many other desired goods by the systematic raising of plants and animals. Agri is from Latin ager ("a field"), and culture is from Latin cultura, meaning "cultivation" in the strict sense of tillage of the soil. Thus a literal reading of the English word yields tillage of the soil of a field. In actual usage, Agriculture denotes a broad array of activities essential to food and material production, including all techniques for raising and processing livestock (see Animal husbandry) no less than those essential to crop planting and harvesting.
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AUCTIONS AND E-COMMERCE |
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An auction is the process of buying and selling things by offering them up for bid, taking bids, and then selling the item to the highest bidder. Auctioning can be traced as far back as 500 B.C.[1] In economic theory, an auction is a method for determining the value of a commodity that has an undetermined or variable price. Auctions can be with reserve or minimum, or without minimums, or absolute or no reserve. In reserve auctions, there is a minimum bid or reserve price; if the bidding does not reach the minimum, there is no sale (but the person who puts the item up for auction may still owe a fee to the auctioneer or auction company). In absolute or no reserve auctions, the sale is guaranteed, with only the price left to be determined. In the context of auctions, a bid is an offered price.
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BOILERS |
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A boiler is a closed vessel in which water or other fluid is heated under pressure. The steam or hot fluid is then circulated out of the boiler for use in various process or heating applications. A safety valve is required to prevent over pressurisation and possible explosion of a boiler.
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COMBUSTION |
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Combustion or burning is a chemical process, an exothermic reaction between a substance (the fuel) and a gas (the oxidizer), usually O2, to release heat. In a complete combustion reaction, a compound reacts with an oxidizing element, and the products are compounds of each element in the fuel with the oxidizing element. For example:
CH4 + 2 O2 → CO2 + 2 2O + heat
CH2S + 6 F2 → CF4 + 2 HF + SF6 + heat
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CONSTRUCTION |
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In project architecture and civil engineering, construction is the building or assembly of any infrastructure. Although this may be thought of as a single activity, in fact construction is a feat of multitasking. Normally the job is managed by the construction manager, supervised by the project manager, design engineer or project architect. While these people work in offices and make the most money, every construction project requires a large number of laborers to complete the physical task of construction.
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CONVEYORS |
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A conveyor belt or belt conveyor consists of two end pulleys, with a continuous loop of material that rotates about them. The pulleys are powered, moving the belt and the material on the belt forward. Conveyor belts are extensively used to transport industrial and agricultural materials, such as grain, coal, ores, etc. Conveyor belts with regularly spaced partitions are often called elevator belts. Conveyor belts are used in self-unloading bulk freighters and in live bottom trucks. This technology is also used in conveyor transport such as moving sidewalks or escalators, as well as on many manufacturing assembly lines. Stores often have conveyor belts at the check-out counter to move shopping items. Ski areas also use conveyor belts to transport skiers up the hill.
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DREDGING / RECLAMATION |
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Dredging is miscellaneous excavator-type work underwater, usually in shallow sea or fresh water.
A dredge is a device for scraping or sucking the seabed, used for dredging.
A dredger is a ship or boat equipped with a dredge.
American usage sometimes calls the ship or boat a dredge.
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DUST CONTROL |
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Dust consists of tiny solid particles carried by air currents. These articles are formed by a disintegration or fracture process, such as grinding, crushing, or impact. The Mine Safety and Health Administration (MSHA) defines dust as finely divided solids that may become airborne from the original state without any chemical or physical change other than fracture.
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ENGINEERING - AUTOMATION |
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Automation (ancient Greek: = self dictated) or industrial automation or numerical control is the use of control systems such as computers to control industrial machinery and processes, replacing human operators. In the scope of industrialization, it is a step beyond mechanization, where human operators are provided with machinery to assist them with the physical requirements of work.
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ENGINEERING - ELECTRICAL |
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Electrical engineering (sometimes referred to as electrical and electronics engineering) is a professional engineering discipline that deals with the study and application of electricity, electronics and electromagnetism. The field first became an identifiable occupation in the late nineteenth century with the commercialization of the electric telegraph and electrical power supply. The field now covers a range of sub-disciplines including those that deal with power, control systems, electronics and telecommunications.
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ENGINEERING - FORENSIC |
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Forensic engineering is the investigation of materials, products, structures or components that fail or do not operate/function as intended. A criminal aspect is possible in any investigation but is not always the case; civil cases are much more common. Generally the purpose of a forensic engineering investigation is to locate cause or causes of failure with a view to improve performance or life of a component. It can also involve investigation of intellectual property claims, especially patents. Methods used in forensic investigations include reverse engineering, inspection of witness statements, a working knowledge of current standards, as well as examination of the failed component itself. The fracture surface of a failed product can reveal much information on how the item failed and the loading pattern prior to failure.
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ENGINEERING - GENERAL |
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Engineering is the application of scientific and technical knowledge to solve human problems. Engineers use imagination, judgement and reasoning to apply science, technology, mathematics, and practical experience. The result is the design, production, and operation of useful objects or processes.
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FARM EQUIPMENT |
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Farm equipment is any kind of machinery used on a farm to help with farming. The best-known example of this kind of equipment is the tractor.
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FOREST PRODUCTS |
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Forest Products - Logging, Logging Rights, Clear cutting, wood pulp, paper industry, US Forestry Service.
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HEALTH / SAFETY |
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Occupational safety and health is the discipline concerned with protecting the safety, health and welfare of employees, organisations, and others affected by the work they undertake (such as customers, suppliers, and members of the public).
The primary, and arguably most prominent reason for occupational safety and health (OSH) standards are moral - an employee should not have to expect that by coming to work they are risking life or limb, and nor should others affected by their undertaking.
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INDUSTRIAL AUTOMATION |
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Automation (ancient Greek: = self dictated) or industrial automation or numerical control is the use of control systems such as computers to control industrial machinery and processes, replacing human operators. In the scope of industrialization, it is a step beyond mechanization. Whereas mechanization provided human operators with machinery to assist them with the physical requirements of work, automation greatly reduces the need for human sensory and mental requirements as well.
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INDUSTRIAL ENGINEERING |
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Industrial engineering is the engineering discipline that concerns the design, development, improvement, implementation and evaluation of integrated systems of people, knowledge, equipment, energy, material and process. Industrial engineering draws upon the principles and methods of engineering analysis and synthesis, as well as mathematical, physical and social sciences together with the principles and methods of engineering analysis and design to specify, predict and evaluate the results to be obtained from such systems. Industrial engineers work to eliminate wastes of time, money, materials, energy and other resources.
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INVESTMENTS |
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Investment or investing1 is a term with several closely-related meanings in finance and economics, related to saving or deferring consumption. An asset is usually purchased, or equivalently a deposit is made in a bank, in hopes of getting a future return or interest from it. Literally, the word means the "action of putting something in to somewhere else" (perhaps originally related to a person's garment or 'vestment').
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LABORATORIES / CLINICAL LABS |
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A laboratory (often abbreviated lab) is a place where scientific research and experiments are conducted. A typical lab can hold space for one to thirty, or more, researchers depending on the size of the room and state mandated maximum occupancy limit.
All laboratories share some common features, mainly laboratory equipment and laboratory glassware: Usually, they have at least one fume hood. Toxic and hazardous chemicals can be safely handled in a fume hood. This reduces, and usually eliminates, the risk of inhalation of toxic gases produced by the reaction of chemicals. Laboratories usually have a sink for handwashing. A fire extinguisher is located in a laboratory, as well as a fire blanket, to help exterminate fire in the event of an accident. There is also an eye wash station and an overhead shower in the event that chemicals gain access onto clothes, skin, or eyes. The exceptions to this would include certain engineering and physics laboratories, which usually do not include glassware, hoods, and toxic chemicals.
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LUBRICATION |
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Lubrication occurs when opposing surfaces are completely separated by a lubricant film. The applied load is carried by pressure generated within the fluid, and frictional resistance to motion arises entirely from the shearing of the viscous fluid.
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MACHINERY |
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Find MACHINERY experts and consultants for MACHINERY litigation support.
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MACHINERY SAFEGUARDING |
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Crushed hands and arms, severed fingers, blindness -- the list of possible machinery-related injuries is as long as it is horrifying. There seem to be as many hazards created by moving machine parts as there are types of machines. Safeguards are essential for protecting workers from needless and preventable injuries.
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MARITIME / COASTAL ENGINEERING |
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Marine Engineers are the officers of a ship which operate and maintain the propulsion and electrical generation systems onboard a ship. They also can help with the design, build, and repair of these complicated systems. New design is mostly included within the naval architecture or ship design. The merchant and military fleets of the world would not move without Marine Engineers. The field is closely related to mechanical engineering, although the modern engineer requires knowledge (and hands on experience) with electrical, electronic, pneumatic, hydraulic, chemistry, control engineering, naval architecture, process engineering,gas turbines and even nuclear technology on military vessels.
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MATERIALS |
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Materials are physical substances used as inputs to production or manufacturing. "Raw materials" are first extracted or harvested from the earth and divided into a form that can be easily transported and stored, then processed to produce "semi-finished materials". These can be input into a new cycle of production and "finishing processes to create "finished materials", ready for distribution and consumption.
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MEDICAL DEVICES |
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A medical device is an instrument, apparatus, implement, machine, contrivance, implant, in vitro reagent, or other similar or related article, including a component part, or accessory which is:
recognized in the official National Formulary, or the United States Pharmacopoeia, or any supplement to them,
intended for use in the diagnosis of disease or other conditions, or in the cure, mitigation, treatment, or prevention of disease, in man or other animals, or
intended to affect the structure or any function of the body of man or other animals, and which does not achieve any of its primary intended purposes through chemical action within or on the body of man or other animals and which is not dependent upon being metabolized for the achievement of any of its primary intended purposes.
as defined by the US FDA.
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OCCUPATIONAL HEALTH & SAFETY |
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Occupational safety and health is the discipline concerned with protecting the safety, health and welfare of employees, organisations, and others affected by the work they undertake (such as customers, suppliers, and members of the public).
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OSHA - Occupational Safety and Health Administration |
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The United States Occupational Safety and Health Administration (OSHA) is an agency of the United States Department of Labor. It was created by Congress under the Occupational Safety and Health Act, signed by President Richard M. Nixon, on December 29, 1970. Its mission is to prevent work-related injuries, illnesses, and deaths by issuing and enforcing rules (called standards) for workplace safety and health. This same act also created the National Institute for Occupational Safety and Health (NIOSH) as a research agency whose purpose is to determine the major types of hazards in the workplace and ways of controlling them. As of March 2006, the agency is headed by Assistant Secretary of Labor Edwin Foulke.
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PACKAGING and LABELLING |
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Packaging is the enclosing of a physical object, typically a product that will be offered for sale. Labelling refers to any written or graphic communications on the packaging or on a separate label.
The purpose of packaging and labels
Packaging and labeling have five objectives:
Physical protection of the object - The objects enclosed in the package can be protected from damage caused by physical force, rain, heat, sunlight, cold, pressure, airborne contamination, and automated handling devices.
Agglomeration - Small objects are typically grouped together in one package for reasons of efficiency. For example, a single box of 1000 pencils requires less physical handling than 1000 single pencils. Alternatively, bulk commodities (such as salt) can be divided into packages that are a more suitable size for individual households.
Information transmission - Information on how to use, transport, or dispose of the product is often contained on the package or label. An example is pharmaceutical products, where some types of information are required by governments.
Marketing - The packaging and labels can be used by marketers to encourage potential buyers to purchase the product. Package design has been an important and constantly evolving phenomenon for dozens of years.
Reducing theft - Some packages are made larger than they need to be so as to make theft more difficult. An example is software packages that typically contain only a single disc even though they are large enough to contain dozens of discs.
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