7 Engineer Fabrication Responsibilities: With Skills
By Indeed Editorial Team
Published 22 October 2022
The Indeed Editorial Team comprises a diverse and talented team of writers, researchers and subject matter experts equipped with Indeed's data and insights to deliver useful tips to help guide your career journey.
Fabrication engineers are critical professionals who find innovative ways to improve manufacturing systems with research, design and installation. Candidates interested in a fabrication engineer role may be required to have a comprehensive understanding of the types of roles and responsibilities they may fulfil during their workday. Understanding this prior to applying for a fabrication engineer role can help candidates determine whether they have the correct skills or educational qualifications to successfully fulfil this role. In this article, we discuss seven fabrication engineer responsibilities and provide a list of skills and how professionals use these in the workplace.
7 engineer fabrication responsibilities
Here's a guide to seven engineer fabrication responsibilities:
1. General administrative tasks
Alongside the manual tasks that fabrication engineers are responsible for, they may also undertake administrative tasks. Administrative tasks can refer to making appointments with clients, preparing invoices for clients once work is complete, making appointments and meetings with suppliers and vendors and compiling reports based on installations. Additionally, they may conduct administrative tasks like researching vendors and suppliers to find the best deals on materials to save their employer money.
Some other administrative tasks can refer to creating written reports of their design findings, providing clients with a comprehensive insight into the necessary adjustments for installations and a summary of their work after the design and development stage. Other administrative tasks can refer to taking note of material inventory and ensuring that they always have adequate supplies of the necessary materials to fulfil their project obligations.
2. Quality testing and control
For fabrication engineers, there are several parts of the design, development and installation process that require intensive quality testing and control. Quality control refers to ensuring that the raw materials in a project meet project requirements. Quality testing involves testing materials to ensure that they address the manufacturing problems highlighted by the client. Fabrication engineers may test the strength and durability of the raw materials, such as certain types of metal, to ensure they can withstand pressure and long-term use.
Alongside this, fabrication engineers may design quality standards that address the raw material specifications that suppliers are required to meet. From this, they communicate these quality testing and control requirements with suppliers and vendors to ensure projects meet their deadlines and aren't delayed due to issues with raw materials not passing the QC stage. These specifications typically inform all future material decisions for an organisation.
An important stage in fulfilling project requirements is finding good-quality suppliers and vendors who can procure high-quality raw materials. To do this, fabrication engineers may liaise with several types of suppliers and vendors to negotiate contracts and order fulfilment dates to ensure that fabricators have a constant supply of raw materials.
Additionally, they conduct extensive research to familiarise themselves with the raw materials market to understand price trends and which suppliers supply the best quality products. From this, fabricators work in partnership with finance departments to negotiate contracts, ensuring suppliers and vendors align with the organisation's budget. Alongside this, they then place orders and keep suppliers informed on their usage trends to ensure they can adjust deliveries based on demand for fabrication services.
Fabrication engineers may also be responsible for supervising and mentoring new fabrication intake. This also involves supervising apprentices and teaching new employees valuable fabrication skills that they can use in their future careers. Additionally, supervision and mentorship also refer to providing technical support to other professionals if they face a design issue that they can't solve.
Fabricators use their extensive problem-solving and design skills to find innovative solutions to pain points for their colleagues. Typically, fabricators supervise all production employees, ensuring that all employees work safely and effectively according to design briefs. This ensures that manufacturing fabrication products are installed according to the design and their client's expectations.
5. Project planning
Project planning and management is a significant task that fabrication engineers take responsibility for. Project planning refers to assessing all stages of the fabrication process, ensuring they plan for the research, design, development and installation stages of the project. Project planning also refers to assessing the potential cost of the project, analysing the cost of raw materials, labour and time. Additionally, it's the fabricator's responsibility to define the project requirements to help other employees measure their success.
Finally, fabrication engineers are required to assess the timeline of the project, ensuring they communicate why the project takes this amount of time and what tasks are involved at each stage with the client. Project planning and management also mean that fabrication professionals are required to maintain clear lines of communication with clients and stakeholders, ensuring that other trades professionals execute their tasks according to the client's wishes.
Documentation is an important task that involves the fabrication engineer compiling written reports for each stage of the project. These documents that explain the project's details at greater length help to explain each phase of the project to the client or stakeholder, ensuring they understand why their budget is allocated to certain materials or why stages of the project take longer than others.
Documentation also refers to noting any changes to the project timeline or changes to the tasks. In this documentation, fabricators justify changes to the timeline or tasks plan to the stakeholder, ensuring they still meet their client's specifications at the end of the project.
The installation process is one of the final steps of a fabrication project. Fabrication engineers typically assist with the installation process, ensuring that they can identify and troubleshoot any issues early on in the installation process. Additionally, during installations, fabrication engineers assess whether the design and development stages of the product address the pain points originally flagged by the client.
They do this by running thorough tests, ensuring that products meet specifications and improve productivity and efficiency. During this stage, they collaborate intensively with clients and other trades professionals to investigate any issues that remain after the development process. From this, they can plan further adjustments that are designed to improve product function.
How engineer fabricators use their skills
To fulfil the above responsibilities, engineer fabricators require an extensive set of skills that help them collaborate with other professionals, deliver projects to strict deadlines and address several functional issues to improve project efficiency and manufacturing processes. Typically, hiring managers expect engineer fabricator candidates to have in-depth knowledge of these skills before they apply for a fabrication role. Here's a guide to how these professionals use their skills in the workplace:
Time management: Fabricators typically work to very strict deadlines to generate design and development processes to ensure that project managers can install fabricated products for their clients. This requires engineer fabricators to research, design and develop products within a short space of time, requiring comprehensive time management skills to meet client expectations.
Problem-solving: Fabricators are responsible for assessing fabricated products and generating ways to optimise tools to improve productivity and efficiency. To do this, candidates require problem-solving skills to help them assess product features and pain points, helping them devise ways that address pain points and improve product experience for trades professionals and their clients.
Positive attitude: Engineer fabricators typically work with a wide range of trades and project management professionals at each stage of their research, design and development phases. This collaborative work environment requires a positive attitude toward working to ensure that they can work constructively within a team dynamic, process feedback and communicate with suppliers and vendors.
Design skills: To complete their tasks and find ways to optimise fabrication installations for greater efficiency and productivity in manufacturing, they require strong design skills and an understanding of functional design issues that are common with manufacturing products. This skill allows them to assess product design and generate new and innovative ways of improving product function to improve installation.
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