Production Engineer Job Description

Production Engineer Job Description, Skills, and Salary

Are you searching for a production engineer job description? Get to know about the duties, responsibilities, qualifications, and skills requirements of a production engineer. Feel free to use our production engineer job description template to produce your own production engineer job description. We also provide you with information about the salary you can earn as a production engineer.


Who is a Production Engineer?

Production engineers, often known as manufacturing or industrial engineers, concentrate on enhancing how businesses make their products by utilizing technology. The duties of a production engineer include anything from installing automation and quality control procedures to selecting the best way to generate new goods. A technical degree, proficiency in design software, and knowledge of various production systems are required for this profession.


Production engineers are highly skilled people that supervise and carry out product manufacture. To guarantee that the production process produces the best end items, these engineers frequently collaborate with a group of product designers. If you are trying to decide if this is the correct career route for you, it can be helpful to understand the tasks and obligations of this profession. The job’s requirements, the advantages of pursuing this career, the salary, the working environment, and some advice on how to get into the field are all covered in this article.

The design, development, implementation, operation, maintenance, and control of all processes involved in the production of a product fall under the purview of production engineering, sometimes referred to as manufacturing engineering. A thing that has value added to it throughout the production process is referred to in this context as a “product.” By using techniques like shaping, machining, joining, and assembling, value is added.

Output engineers are in charge of directing and enhancing production at factories and facilities. They provide assistance to engineering teams, create safety procedures, notify managers of problems, and create plans to increase productivity and profit. To ensure best practices, production engineers should continue their education and attend seminars.


Production engineers help engineering teams, design safety procedures, report issues to management, and develop plans to increase efficiency and profitability as they supervise and improve production throughout plants or factories. They oversee the workers at the factory or plant and guarantee that all health and safety regulations are observed throughout a shift. They educate employees on how to operate equipment safely and spot problems in a production line. They will perform equipment troubleshooting if required.

As part of their administrative duties, production engineers also plan meetings with pertinent departments and stakeholders, create production schedules and project budgets, and record and report harmful practices. They monitor the procedure, guarantee that high-quality work is carried out safely and effectively, diagnose problems on a production line, and offer recommendations and training to address the issues. They stay up to date on production and engineering innovations, and they freely impart their knowledge to colleagues. Production engineers must possess a degree in engineering, the necessary certifications, and CAD software expertise.


The production engineer function helps to help the firm create its goods at an economical cost without significantly influencing quality. Engineers could pick which equipment to utilize, choose acceptable materials and develop whole manufacturing processes along with helping the organization make use of automation to cut costs and enhance productivity. These engineers also analyze the company’s present production procedures to make things quicker.

Production engineers work closely with manufacturing staff and may specialize in a specific area, such as repairs. Other production engineer roles include choosing how much personnel to place on an assembly line, designing and updating the software that drives plant equipment, and aiding with training production workers.

Production engineers are responsible for ensuring that the items we use every day from vehicles to computers, toys to toothpaste are created with quality and efficiency in mind. They work together with designers and other engineers to ensure that manufacturing processes are simplified and efficient.

Production engineers may also be entrusted with monitoring safety standards on the factory floor or in other places where their company’s goods are being made. This could involve examining equipment for faults or risks, instructing personnel on basic safety measures, etc.


Production engineers oversee and improve production across plants or factories by helping engineering teams, establishing safety rules, reporting difficulties to management, and formulating plans that will boost efficiency and profitability. They monitor personnel at the plant or factory and ensure all health and safety rules are observed during a shift. They instruct employees how to utilize equipment and spot faults in a manufacturing line properly. When required, they will troubleshoot equipment.

Production engineers also execute administrative activities including organizing meetings with appropriate departments and stakeholders, drafting production plans and project budgets, and recording and reporting harmful behaviors. They oversee the process and guarantee quality work is being done safely and effectively, and identify difficulties on a production line while giving advice and training to correct the problem. They keep aware of innovations in engineering and manufacturing and share their expertise gladly with teammates. Production engineers require a degree in engineering and necessary licensure as well as familiarity with CAD software.


Production Engineer Job Description

What is a production engineer job description? A production engineer job description is simply a list of duties and responsibilities of a production engineer in an organization. Below are the production engineer job description examples you can use to develop your resume or write a production engineer job description for your employee. Employers can also use it to sieve out job seekers when choosing candidates for interviews.

The duties and responsibilities of a production engineer include the following:

  • Coordinate with other engineers to verify that designs match industry requirements
  • Monitor equipment performance to verify that production objectives are being fulfilled
  • Analyze designs to discover possible issues with the design or manufacturing process
  • Schedule maintenance and repairs for equipment to guarantee the smooth running of manufacturing lines
  • Evaluate raw materials used in manufacturing processes to verify they fulfill quality criteria
  • Provide technical help to other engineering professionals addressing equipment concerns
  • Oversee the installation of new technologies that might increase efficiency in industrial processes
  • Perform research on upcoming technology to find chances for enhancing efficiency in industrial processes
  • Develop novel procedures that enhance efficiency or minimize costs in manufacturing
  • Conduct  research
  • Design new items and procedures
  • Calculate production and material costs
  • Improve manufacturing efficiency
  • Design and install equipment
  • Review quality standards
  • Collaborate with other engineers
  • Develop comprehensive blueprints for equipment and processes
  • Maintain process and product database
  • Train staff and resolve challenges in production
  • Provide safety leadership for the region including regular inspections and handling concerns swiftly
  • Lead operator training for technical and process responsibilities in the area
  • Maintain efficient and updated operational procedures
  • Ensure compliance with the requirements of the Quality Management Systems for the region.
  • Manage the operational budget for the area
  • Work with Maintenance to organize preventive and emergency maintenance.
  • Provide backup for the Area Supervisor
  • Work with the Reliability Team to decrease unexpected downtime
  • Investigate process changes for the area to increase safety and productivity
  • Evaluate required capital improvements and collaborate with Engineering to execute
  • Assist the operators with troubleshooting (quality, mechanical, process, etc)
  • Perform quality assessments to promote constant improvement.
  • Drives and develops continuous improvement activities
  • Develop, and/or maintains documentation relevant to manufacturing processes, systems operation, product development, and other technical procedures
  • Develop and lead the adoption of best practices, procedures, and creative solutions to enhance production rates and quality of output. Scope includes but is not limited to scrap reduction, cycle time reduction, downtime reduction, FPY increase, OEE increase, 0km, warranty ppm decrease, etc.
  • Gather data from manufacturing lines to help in decision-making and process improvement efforts prioritizing
  • Support quality efforts and collaborate with the team to design the appropriate equipment to increase the quality.
  • Design, execute, and maintain processes about efficient manufacturing techniques for the molding and stamping sector with an emphasis on Lean initiatives
  • Create new documentation or update current documentation to appropriately represent changes in a product or process
  • Assist in updating manufacturing workflow, line layouts, or floor plans
  • Document processes and ensures standard work is being followed track process parameters and verify standard work is up to date and being followed
  • Perform all other responsibilities as specified



  • Degree in Engineering (Master’s degree recommended).
  • The relevant license may be needed.
  • Experience with CAD software.
  • Proficiency in MS Office.
  • Proven experience in the engineering industry.
  • Ability to make judgments under pressure.
  • Great attention to detail and organized abilities.
  • Superb analytical, problem-solving, and critical thinking abilities.
  • Strong leadership ability.
  • Superb written and vocal communication abilities.


Essential Skills

  • Technical skills: Technical skills are the cornerstone of your ability to work as a production engineer. Technical skills are the core information you need to fulfill your work obligations. Examples of technical talents include understanding computer programs, mathematics, engineering concepts, and the ability to read and comprehend technical drawings.
  • Communication skills: As an engineer, you need to be able to communicate with people clearly and straightforwardly. You may be needed to interact with customers, suppliers, managers, rs, and other engineers. Effective communication skills may allow you to share your thoughts and comprehend the opinions of others.
  • Problem-solving abilities: Problem-solving skills are necessary for production engineers. They employ these talents to detect and fix difficulties that develop throughout the manufacturing process. They also utilize these talents to identify answers to challenges that develop throughout the design process.
  • Attention to detail: Attention to detail is the capacity to detect subtle changes in a product or process. This talent is critical for production engineers because it helps them to recognize when a process is not operating properly or when a product is not reaching quality requirements. It also helps them to recognize when a process needs to be modified or enhanced.
  • Ability to work as part of a team: Production engineers generally collaborate with other experts in their industry, such as production managers, quality control men, agers, and marketing teams. Working as part of a team requires being able to communicate effectively, exchange ideas and work together to reach a shared objective.
  • Advanced math: Engineering sometimes includes significant mathematics and computations. To execute their tasks effectively, manufacturing engineers may benefit from a high degree of mathematical ability. They may utilize formulae and equations to assure production results in useable completed products, to address difficulties in manufacturing lines,s and to assess the cost of finishing a product.
  • Knowledge of manufacturing: An advanced understanding of manufacturing is necessary to thrive as a production engineer. This might include specialized expertizing the sub-industry of manufacturing in which these employees may operate. For example, a production engineer in the automobile business may possess a distinct set of manufacturing expertise than a production engineer in the textile and fabric industry.

Knowledge of manufacturing might include kinds of equipment utilized, production line structure, safety measures, cost calculation, and awareness of timescales for finished items.

  • Strategic thinking: Strategic thinking may assist production engineers in efficiently planning and coordinating the creation of items. Strategic thinking represents the act of assessing a difficult problem and finding alternative answers and improvements. It may also entail viewing numerous operations at once, monitoring the progress of ea,c,h, and responding to difficulties when they emerge. The ability to think strategically may also be advantageous while generating manufacturing concepts that best result in a finished product.


How to Become a Production Engineer

  • Earn a Degree: To begin your Production Engineer career path, a Bachelor’s Degree in chemical engineering or a similar discipline is normally essential to stay a competitive choice for employers. Focus on industry-specific skill development throughout your studies to be fully prepared when applying for entry-level roles and joining the workforce. A Production Engineer internship may be needed to get your Bachelor’s Degree and learn critical on-the-job experience before joining the profession.
  • Choose a Specialty in Your Field: As a Production Engineer, you may be required to pick a specialism within your profession. Determine the area of the Production Engineer field you feel greatest in, and continue taking active measures toward advancing in your chosen Production Engineer specialty.
  • Get an Entry-Level Position as a Production Engineer: Once you’ve gained a Bachelor’s Degree in chemical engineering or a similar discipline, you’ll normally begin your career as an entry-level Production Engineer. In general, you may become a Production Engineer after finishing your 4-year Bachelor’s Degree in a relevant subject.
  • Advance in Your Production Engineer Career: Following entry-level, there are multiple Production Engineer job path levels to develop into. It might take 2 years for an entry-level Production Engineer to graduate to the next seniority level post. Each advanced Production Engineer job takes roughly 2 years of experience at each level to progress in your Production Engineer career path. It may be essential to earn more education, an advanced degree such as a Master’s Degree in a related discipline, or unique certifications to enhance your Production Engineer job path.
  • Continued Education for Your Production Engineer Career Path:Not all sectors and firms demand continuous education to develop your Production Engineer job path. However, completing this degree may help you rise to higher-paying employment more rapidly. Earning a Graduate Degree in chemical engineering might take 4 years to accomplish.


Where to Work as a Production Engineer

  1. Manufacturing industries.


Production Engineer Salary Scale

The average production engineer income in the USA is $87,500 per year or $44.87 per hour. Entry-level occupations start at $70,000 per year while most experienced individuals get up to $124,575 per year.

The average production engineer income in the United Kingdom is £35,000 per year or £17.95 per hour. Entry-level occupations start at £30,000 per year while most experienced professionals earn up to £43,563 per year.

Science, Technology, and Engineering

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