Auto Body Repair Technology Books Pdf File
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Students learn to repair and refinish automobile and truck bodies. Instruction includes inspecting vehicles for damage; cutting, welding, and straightening sheet metal; and removing and replacing trim and glass. The refinishing portion offers students advanced painting techniques, single stage urethane, and base coat clear coat systems.
CIP Code: 47.0603CIP Name: Autobody/Collision and Repair Technology/TechnicianDefinition: A program that prepares individuals to apply technical knowledge and skills to repair, reconstruct and finish automobile bodies, fenders, and external features. Includes instruction in structure analysis, damage repair, non-structural analysis, mechanical and electrical components, plastics and adhesives, painting and refinishing techniques, and damage analysis and estimating.
Technicians repair or replace parts, straighten frames and Unibody structure, install and adjust components and glass, repair electrical systems, restraints, suspension components, brakes, prepare all types of surfaces for necessary refinishing operations, mix and apply modern waterborne and solvent-borne paint products, and finish their work to industry standards. Skills learned include welding, metal straightening, filler use, plastic repair, surface preparation, masking, product selection, mixing, color matching and application techniques, as well as detailing and troubleshooting. This certificate qualifies students to apply for I-CAR Pro Level 1 Certification.
The Automotive Technology program offers exciting careers and unlimited opportunities. Through the use of equipment used in the automotive industry today and ASE master certified instructors, students learn how to diagnose and repair today's high-tech vehicles. This program will prepare students for entry level employment with companies that require training in areas such as: electrical systems, engine performance, transmissions, brakes, steering and suspension systems, air conditioning systems, and engine repair. Students are prepared to take industry standard certification exams from ASE.
Students receive hands-on experience on up to date repair and diagnostic equipment that is currently used in the automotive field today. Computer usage and skills along with network communication diagnosis has become critical skills required to quickly and accurately diagnosis newer automobiles, hybrid and alternative fueled vehicles, and heavy diesel trucks. This is a hands-on training program that allows plenty of lab time to develop the skills needed to be successful in whichever emphasis of study the student chooses to go into. Through your choice of electives, you can choose the emphasis of study you would like to pursue.
Local employers seek out our students when they need automotive service/body Technicians. Students who complete the automotive program should have no trouble finding a job as a technician, service writer or even a service manager at dealerships, independent repair shops, parts stores or even start their own business! Our graduates are currently working as Auto Body Technicians, Diesel Mechanics, and even Farm Equipment Technicians.
The need for a suitable joining technology for multi-material combinations in car bodies of the future has been constantly growing. Here, adhesive technologies offer a number of advantages as well as a great development potential. In order to ensure the performance of the entire vehicle, especially in relation to crash safety, rigidity and corrosion, quality assurance methods are required that ensure the efficiency of adhesive bonds, both in applicability and costs. Present-day conventional destructive test methods must be supplemented by non-destructive methods. A preventive quality management which is already used in the early stages of development by means of simulation methods can help reduce inspection costs and expensive reworking in the prototype phase. For this purpose it is necessary to analyse the processes employed in the manufacturing process of the car body in order to improve simulation with the aid of appropriate laboratory experiments. Initially, basic reaction kinetics tests are presented to demonstrate the heating rate dependency of glass transition temperature and the reaction process of a 1K epoxy adhesive. Finally, the requirements for an advanced testing methodology are defined in order to ensure and improve the quality of adhesive bonding in vehicles. 2b1af7f3a8