How to become a successful plastic mold designer engineer

How to become a successful plastic mold designer engineer

This is an expertise profession that describes the tooling required and applied to produce plastic parts. Though plastic mold designer is thought to be one of the easier programs  in designing field, it has quite a number of challenges. For people who wish to be plastic mold designers, creativity is one of the core requirement. Some may feel its a walk over due to the use of computer aided design programs forgetting that that is only a tool like in any other that assist the designer in learning about the jobs and program. Untill one has designed a project in a computer aided program software then he/she is not celebrated for pundit.     Despite the fact that its an office based field, visiting the laboratory and manufacturing sites is as well effective and the most important part of the whole study period. In order to become a successful plastic mold design engineer one has to follow the following four steps with none being an exemption.

Step 1

After successful high school completion, one must join an institution to complete an associates  degree program. this means that one has to go to a higher learning institution. Most local colleges and technical schools offer associates degree program.to acquire an under graduate academic degree upon completion of a course. of study However, different institutions may offer different courses in different aspects of plastic molding technology, Any of the offered programs nevertheless offers computer aided design programs that trains students to design through programs like autoCAD

Step 2

Find an apprenticeship this is a system of training a new generation of practitioners of a profession with on the job training and often some accompanying study.  Employers have embrassed offering of variety apprenticeships as the saying goes, the key to success is applying learnt process and acquired strategies. Designing plastic parts is a complex task involving many factors that address how a part is to b used and how its supposed to fit in the assembly. Therefore learning with actions can be the best teaching method.     This field is among those that require more hours at the field gaining work experience compared to class hours doing theory. Bearing in mind that this is not a competitive field, finding an apprenticeship is not that complicated for students. Institutions have leads and connections to training companies.

Step 3

Enter the work force. After completion of training, a plastic mold designer should join any plastic mould manufacturers so that they can take their carrier to greater heights. Working with customers closely and being able to work with computer aided design programs and other software associate programs improves learners potential. A learner receives further training about the job and applies acquired skills and knowledge

Step 4

Advance your career: this the last stage of becoming a successful plastic mold engineer. Its simply gaining solid experience and possessing quality skills. Though no licences are required in this field, taking certifications and licences to upgrade to advance companies can do no harm. Though plastic mold designers train for two years in colleges and technical institutions, it can take more years for one to be qualified and learning becomes a continuous process with new upcoming designs every other day.

Plastic Molding and Industry Changes

Plastic Molding and Industry Changes

Plastic Molding are very important components of the industry and are closely associated to daily life. They are structures such as pipes, bottles and vessels capable of holding internal pressure, cars, hous cooking, everything the world that can not leave without plastic parts. Every industry small, medium, large or very large needs plastic molds and custom injection molding parts. Boilers are used for producing power. There are heat exchangers used in many industrial applications. Take the name of any industrial sector there oil tanks, pipelines, compressors for supplying compressed air for cleaning, pnuematic systems for instrumentation, pneumatic conveying sytems for transportion of solid, liquid and gaseous materials in the industry. Oil and gas industry, aerospace industry, marine industry, refrigeration and air conditioning systems use pressure vessels.

Safety issues with plastic injection molding

                injection moldings are associated with lots of safety risks. Any explosion of pressure vessel can be very dangerous to the workers and plant and machinery. There have been serious accidents in power houses, cement plants, steel plants, chemical plants and aerospace industry resulting lots of losses of human lives and to the industrial assets. Airplane cabins is a familiar examples of the pressure-containing structures. The atmosphere inside the cabin relative to the thin air outside is a serious threat to the airplane if cracks are developed. Number of fatal tragedies have occurred from this problem. The famous tragedy is of disintegration of Comet aircraft in flight in the 1950s is still fresh in memory. The loss of a 5-meter section of a roof of the first-class section of an Aloha Airlines B737 in April 1982 is another important case showing the gravity of the dangers associated with the pressure vessels.

Pressure vessel suppliers are very concerned to determine the stresses and deformations in structures such as these as it will be the crucial measure for the safety of structures as the first step in designing against failure.

Need for industry standards, code and enforcing agencies

                The gravity casting of the consequences of damages to human life and property and the inconvenience they cause to the society is well understood by the manufacturers of plastic parts and metal parts. They are keen to adopt foolproof design of systems and components, selecting the right materials of construction and latest technologies in manufacturing the safe pressure vessels. Strictly following the industry standards and codes involving competent inspections in obtaining the right materials, inspection during the manufacturing and final inspection after the product is ready for use are of utmost importance for the manufacturers of plastic molding parts and metal parts. The safety of plastic injection molding is not the concern of only the manufacturers of the plastic molds but is for every one involved in the process like suppliers of the materials, equipment, instruments, testing agencies and enforcement bodies.