A clearance hole in mechanical engineering is a hole that is slightly larger than the diameter of a fastener. Its purpose is to allow the fastener to pass through easily without any interference. This helps simplify the assembly process by making it easier to align and insert the fastener, reducing the risk of damage to the components being assembled.
Designing the production process for a product
drug clearence
water jet machining process check out http://engineersguide.in/mech1.html
I will suggest you to choose oil and gas field which has good market in upcoming years compare to other fields u can do mechanical or civil engineering both or an evergreen field. After your engineering get specialized in Piping Engineering or Process Plant civil Engineering . To have more confident in Piping or process plant Civil engineering field you can choose Seabird engineering institute
go for some inovative model making process with some abstract design
Process engineering focuses on the design, operation and maintenance of chemical and material manufacturing processes. Process engineering also involves developing new processes, project engineering and troubleshooting. Production engineering focuses more on making production more efficient, the social science of manufacturing, eliminating wasted time, money and production as well as materials. Production is more geared towards the people, process, and finished product. Whereas the process involves more of how you get there, what process takes, and not so much the finished product.
Can you give and example of an engineering process?
Mechanical profiling is a technique used to analyze the mechanical properties of materials, often by measuring their response to various forces or stresses. This process can involve techniques such as indentation, tensile testing, or dynamic mechanical analysis to determine characteristics like hardness, elasticity, and strength. The data obtained from mechanical profiling helps in understanding material performance under different conditions, guiding material selection and engineering applications. It is widely used in fields such as materials science, engineering, and quality control.
Either, do BTEC NATIONAL DIPLOMA IN MECHANICAL ENGINEERING (2 YEAR COURSE level 2/3) or AN AERONAUTICAL ENGINEERING COURSE IN CERTAIN COLLEGES, LIKE SUSSEX, or you could do an APPRENTICESHIP IN AERONAUTICAL/AEROSPACE ENGINEERING and earn while you train. :). The Grades you need will be A*-C in Maths, English and Science (Physics) :)
It is a procees design Engineering
Mechanical Engineering is the field of engineering that applies the principles of physics and materials science to the design and production of buildings, structures, and machines. In order to become a mechanical engineer, one has to understand mechanics, kinematics, thermodynamics, heat transfer, materials science, and energy transfer. Mechanical engineers are in high demand across a number of different industries, including construction, industrial machinery, aircraft, robotics, and motor vehicles, among many others. Mechanical engineering has a long history, starting in ancient Greece with the works or Archimedes and Heron of Alexandria. Mechanical engineering became a separate field outside of general engineering in the 19th century with the development of machine tools that were beginning to be used in industry during the Industrial Revolution. Demand for mechanical engineers has continued from that time to the present day, as industrial processes have become more sophisticated. Any person considering a profession in mechanical engineering should have a strong inclination to study mathematics and physics, as these two sciences have traditionally formed the basis of a mechanical engineering education. The basis for becoming a mechanical engineer in the United States is a bachelor’s degree in engineering, which is typically either a Bachelor of Science in Engineering with an emphasis on Mechanical Engineering or a Bachelor of Technology in Engineering with an emphasis on Mechanical Engineering. Typically this program requires four to five years of training at the university level. In the United States, most of these undergraduate programs are accredited by the Accreditation Board for Engineering and Technology; this accreditation ensures that there is a uniform standard in the training and quality of engineers across the country. Further education may be pursured depending on the career path of the prospective mechanical engineer. Typically advanced degrees in mechanical engineering are sought in order to enter the academic world, and usually involve a research component. Once a mechanical engineer has attained at least a Bachelors degree, the prospective engineer must obtain a license to practice mechanical engineering. This license may be issued by a state or national government, and is necessary so that the government can ensure that the mechanical engineer has the necessary technical knowledge to practice engineering at a professional level. The licensing process typically involves a review of the engineer’s credentials and an exam that tests the engineer’s technical knowledge. Once the governmental issuing body is satisfied that the prospective mechanical engineer has met all of its requirements, a license is issued...
J. Paulo Davim has written: 'Finite element method in manufacturing processes' -- subject(s): Mathematics, Machining, Finite element method 'Dynamic methods and process advancements in mechanical, manufacturing, and materials engineering' -- subject(s): Production engineering, Mechanical engineering, Materials engineering, Research 'Computational methods for optimizing manufacturing technology' -- subject(s): Mathematical models, Manufacturing processes 'Mechatronics' -- subject(s): Mechatronics