engineering processes
The systematic approach to the development and maintenance of engineering systems.
Industrial engineers design a vast array of production systems aiming to present efficient and effective solutions. They integrate a varied number of variables such as workers, technology, ergonomics, production flows, and product specifications for the design and implementation of production systems. They can specify and design for microsystems as well.
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The systematic approach to the development and maintenance of engineering systems.
The subfield of industrial engineering that corresponds to the practice of generating efficient products by transforming raw material into finite products.
The engineering elements like functionality, replicability, and costs in relation to the design and how they are applied in the completion of engineering projects.
The field of engineering concerned with the development, improvement, and implementation of complex processes and systems of knowledge, people, equipment, etc.
The steps required through which a material is transformed into a product, its development and full-scale manufacturing.
Materials and techniques required in the production and distribution processes.
Drawing software and the various symbols, perspectives, units of measurement, notation systems, visual styles and page layouts used in technical drawings.
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Adjust designs of products or parts of products so that they meet requirements.
Give consent to the finished engineering design to go over to the actual manufacturing and assembly of the product.
Coordinate manufacturing activities based on production strategies, policies and plans. Study details of the planning such as expected quality of the products, quantities, cost, and labour required to foresee any action needed. Adjust processes and resources to minimise costs.
Specify technical properties of goods, materials, methods, processes, services, systems, software and functionalities by identifying and responding to the particular needs that are to be satisfied according to customer requirements.
Optimise and maintain the parameters of the production process such as flow, temperature or pressure.
Gain, correct or improve knowledge about phenomena by using scientific methods and techniques, based on empirical or measurable observations.
Create technical designs and technical drawings using specialised software.
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Innovative materials with unique or enhanced properties relative to conventional materials. Advanced materials are developed using specialised processing and synthesis technologies that provide a distinctive advantage in physical or functional performance.
The offered agricultural machinery and equipment products, their functionalities, properties and legal and regulatory requirements.
The setting, features and operation of aircraft flight control systems such as flight control surfaces, cockpit controls, connections, and operating mechanisms required to control the flight direction of an aircraft.
The scientific field of study that interprets the impact of weather on air traffic management (ATM) and how thorough changes in pressure and temperature values at airports can create variations in head and tail-wind components, and may impose low visibility operating conditions. Knowledge of aviation meteorology can help to reduce negative impact on the ATM system by diminishing disruption and the consequent problems of disturbed flow rates, lost capacity and induced additional costs.
The body of legislation and regulations that apply to the field of civil aviation at regional, national, European and International levels.
The various weapons and weapon systems used to protect citizens and to harm or shield incoming enemies and enemy weapons.
Various processing methods on iron and iron-containing alloys such as steel, stainless steel and pig iron.
The factors which are involved in the calculation and estimation of gas consumption in a residence or facility, and methods which can reduce the consumption of gas, or make it more efficient.
The processes used to remove contaminants such as mercury, nitrogen and helium from natural gas; the techniques such as activated carbon and molecular sieves and the recovery of the removed material if it is commercially viable.
The processes used to remove water from natural gas such as the absorption process using glycol or activated alumina.
The engineering discipline that deals with the design and development of systems that can control the motion of automobiles, ships, space- and aircraft. It includes control over vehicle's trajectory from its present location to a designated target and vehicle's speed and altitude.
Human-Robot Collaboration is the study of collaborative processes in which human and robot agents work together to achieve shared goals. Human-Robot Collaboration (HRC) is an interdisciplinary research area comprising classical robotics, human-computer interaction, artificial intelligence, design, cognitive sciences and psychology. It is related to the definition of the plans and the rules for communication to perform a task and achieve a goal in a joint action with a robot.
The gas extraction technique in which high-pressure fluids are injected into deep water surfaces in order to release natural gas, petroleum, or other non renewable resources.
The characteristics, use and operations of various software products such as computer programmes and application software.
The tools and equipment used for industrial purposes, both power and hand tools, and their various uses.
Discipline that applies principles of physics, engineering and materials science to design, analyse, manufacture and maintain mechanical systems.
Microelectromechanical systems (MEMS) are miniaturised electromechanical systems made using processes of microfabrication. MEMS consist of microsensors, microactuators, microstructures, and microelectronics. MEMS can be used in a range of appliances, such as ink jet printer heads, digital light processors, gyroscopes in smart phones, accelerometers for airbags, and miniature microphones.
The various facets of natural gas: its extraction, processing, constituents, uses, environmental factors, etc.
The processes used to separate natural gas liquids or NGLs into its constituents, including ethand, propane, butane, and heavier hydrocarbons. Understand the workings of the deethaniser, depropaniser, debutaniser, and butane splitter.
Be aware of common processes used to separate heavier hydrocarbons such as ethane, propane and butane from the methane, which is the finished product of the gas processing plant. Be aware of oil absorption techniques, cryogenic expansion processes, and other relevant processes.
The techniques used to make aircraft, ships, missiles and satellites less detectable to radars and sonars. This includes the design of particular shapes and the development of radar-absorbent material.
Principles and conditions of organic and sustainable agricultural production.
The simulation and representation of components of physical world such as climate, wheather and space where military systems exist in order to obtain information and perform tests.
The types of equipment and machinery that have rotating parts, such as turbines, pumps, ventilators, centrifuges, engines and gearboxes.
The systems used to remotely control unmanned aerial vehicles by onboard computers or by a pilot on the ground or in the air.
The process of developing a mathematical representation of any three-dimensional surface of an object via specialised software. The product is called a 3D model. It can be displayed as a two-dimensional image through a process called 3D rendering or used in a computer simulation of physical phenomena. The model can also be physically created using 3D printing devices.
The scientific field that deals with the way gases interact with moving bodies. As we usually deal with atmospheric air, aerodynamics is primarily concerned with the forces of drag and lift, which are caused by air passing over and around solid bodies.
The engineering discipline that combines various technologies and engineering disciplines such as avionics, materials science and aerodynamics in order to design, develop and manufacture aircraft, spacecraft, missiles and satillites.
The production and characteristics of agricultural chemicals such as fertilizers, herbicides, pesticides or insecticides.
Technicalities over mechanics in aircrafts and related topics in order to perform a wide range of repais in aircrafts.
Set of technologies that make a process, system, or apparatus operate automatically through the use of control systems.
Must be able to read and understand blueprints, drawings and plans and maintain simple written records.
The computer-aided design (CAD) software for creating, modifying, analysing or optimising a design.
The software to perform computer-aided engineering (CAE) analysis tasks such as Finite Element Analysis and Computional Fluid Dynamics.
The composition, structure, and properties of substances and the processes and transformations that they undergo; the uses of different chemicals and their interactions, production techniques, risk factors, and disposal methods.
Engineering discipline that combines computer science with electrical engineering to develop computer hardware and software. Computer engineering occupies itself with electronics, software design, and the integration of hardware and software.
The current legislation applicable in relation to the rights of consumers in the marketplace.
Underlying ideas of quality management systems. Implementation process of lean manufacturing, Kanban, Kaizen, Total Quality Management (TQM) and other continuous improvement systems.
Subdiscipline of engineering that focuses on controlling the behaviour of systems through the use of sensors and actuators.
The various types of oxidation reactions with the environment, such as rusting, copper pitting, stress cracking, and others.
The drawings detailing the design of products, tools, and engineering systems.
The elements used in design such as unity, scale, proportion, balance, symmetry, space, form, texture, colour, light, shade and congruence and their application into practice.
The field of engineering that deals with the study and application of electricity, electronics, and electromagnetism.
The engineering processes that combine electrical and mechanical engineering in the application of electromechanics in devices that need electricity to create mechanical movement or devices that create electricity by mechanical movement.
The functioning of electronic circuit boards, processors, chips, and computer hardware and software, including programming and applications.
The environmental policies and legislation applicable in a certain domain.
Firmware is a software program with a read-only memory (ROM) and a set of instructions that is permanently inscribed on a hardware device. Firmware is commonly used in electronic systems such as computers, mobile phones, and digital cameras.
The characteristics and properties of fluids, including gases, liquids and plasmas, at rest and in motion, and the forces on them.
The various qualities, hazards and applications of gaseous fuels, such as oxy-acetylene, oxy-gasoline, oxy-hydrogen and others.
The principles of gas chromatography used to analyse and separate specific compounds which go to vaporisation without decomposition.
The different types of waste which poses risks to the environment or public health and safety, such as radioactive waste, chemicals and solvents, electronics, and mercury-containing waste.
The set of activities that companies carry out to do industrial innovation and introduce new engineering products and services or new industrial production processes.
The science and engineering discipline that attempts to control process variables of production and manufacturing. It also focuses on the design of systems with desired behaviours. These systems use sensors to measure the output performance of the device that is being controlled.
The equipment and instruments used for the monitoring and controlling of processes, such as valves, regulators, circuit breakers, and relays.
Lean manufacturing is a methodology that focuses on minimizing waste within manufacturing systems while simultaneously maximizing productivity.
Body of regional, national and European laws enacted in the field of agriculture and forestry concerning various issues such as product quality, environmental protection and trade.
The behaviour of solid objects when subjected to stresses and strains, and the methods to calculate these stresses and strains.
Mathematics is the study of topics such as quantity, structure, space, and change. It involves the identification of patterns and formulating new conjectures based on them. Mathematicians strive to prove the truth or falsity of these conjectures. There are many fields of mathematics, some of which are widely used for practical applications.
Theoretical and practical applications of the science studying the action of displacements and forces on physical bodies to the development of machinery and mechanical devices.
The way energy forces interact and affect components in motor vehicles such as cars, buses, invalid carriages and other motorised vehicles.
The mechanical aspects and principles of the mechanics involved in trains.
Multidisciplinary field of engineering that combines principles of electrical engineering, telecommunications engineering, control engineering, computer engineering, and mechanical engineering in the design of products and manufacturing processes. The combination of these areas of engineering allows for the design and development of "smart" devices and the achievement of an optimal balance between mechanical structure and control.
Microelectronics is a subdiscipline of electronics and relates the study, design, and manufacture of small electronic components, such as microchips.
Model-based systems engineering (MBSE) is a methodology for systems engineering that uses visual modelling as the primary means of communicating information. It is focused on creating and exploiting domain models as the primary means of information exchange between engineers and engineering technicians, rather than on document-based information exchange. Therefore, it eliminates the communication of unnecessary information by relying on abstract models that retain only the relevant data.
The methods, procedures and techniques pertaining to the operation of multimedia systems, usually a combination of software and hardware, presenting various types of media such as video and audio.
The techniques used to assess the characteristics of materials, products and systems without causing damage, such as ultrasonic, radiographic, and remote visual inspection and testing.
The processes of packaging or protecting products for distribution, storage and sale.
The natural science involving the study of matter, motion, energy, force and related notions.
Precision or fine mechanics is a subdiscipline in engineering that focuses on the design and development of smaller precision machines.
The principles of mechanical engineering, physics, and materials science.
The most optimal rotation or cycle time and over-all quality of a tool or a machine's processes.
The national and international requirements, specifications and guidelines to ensure that products, services and processes are of good quality and fit for purpose.
The process of extracting knowledge or design information from anything man-made and reproducing it or anything else based on the extracted information. The process often involves disassembling something and analysing its components and workings in detail.
The branch of engineering that involves the design, operation, manufacture, and application of robots. Robotics is part of mechanical engineering, electrical engineering, and computer science and overlaps with mechatronics and automation engineering.
Semiconductors are essential components of electronic circuits and contain properties of both insulators, such as glass, and conductors, such as copper. Most semiconductors are crystals made of silicon or germanium. By introducing other elements in the crystal through doping, the crystals turn into semiconductors. Depending on the amount of electrons created by the doping process, the crystals turn into N-type semiconductors, or P-type semiconductors.
The various techniques for joining pieces of metal together by melting and applying a filler metal into the joint between the two pieces such as silver soldering and induction soldering.
The engineering discipline that studies ways to counteract environmental deterioration, such as corrosion and deformation of surfaces of materials, by altering the properties of the surfaces and making them resistant to the environment in which they will be used.
The manufacturing process of different types of containers, such as boilers and pressure vessels, and what they are used for.
Qualities, specifications, applications and reactions to different fabricating processes of various types of metal, such as steel, aluminium, brass, copper and others.
Properties of materials that make them suitable for packaging. Conversion of raw materials into packaging materials. Different types of labels and materials used which comply with the correct storage criteria depending on the goods.
Types of flight rules which are a compilation of regulations that allow pilots to fly aircrafts in clear as well as unclear weather conditions whereby it is declared that outside visual reference to the ground and other obstructions are not safe.
The different methods of welding together pieces of metal using various equipment, such as oxygen-acetylene welding, gas metal arc welding and tungsten inert gas welding.
Design and construct machines and installations for manufacturing purposes.
Develop the production line of a designed product. This corresponds to a sequence of mechanical or manual operations involved within a production process of a manufactured product.
Evaluate the use and possible recycling of raw materials in the whole product life cycle. Consider applicable regulations, such as the European Commission's Circular Economy Policy Package.
Inspect rolling stock, components and systems to ensure compliance with standards and specifications.
Define and describe the criteria by which data quality is measured for manufacturing purposes, such as international standards and manufacturing regulations.
Design equipment and procedures to remove impurities from natural gas in order to ensure the by-products comply to regulations and can be used as fuel.
Design equipment which is used for the provision of utility services, such as heat, steam, power, and refrigeration, in order to improve efficiency and sustainability in the provision of utilities to facilities and residential properties.
Develop testing protocols to enable a variety of analyses of mechatronic systems, products, and components.
Convert market requirements into product design and development.
Ensure that every aircraft complies with applicable regulation and all components and equipment have officially valid components.
Keep rolling stock in functional condition and maintain railway machinery.
Oversee train equipment maintenance and rail security.
Ensure that the materials provided by suppliers comply with the specified requirements.
Apply basic safety standards and machine-specific technical standards to prevent risks connected with the use of machines in the workplace.
Use appropriate questions and active listening in order to identify customer expectations, desires and requirements according to product and services.
Implement quality systems and procedures such as ISO systems.
Install the automation components according to the specifications of the circuit diagram.
Keep up to date with digital innovations applicable to industrial processes. Integrate these transformations in the company's processes aiming for competitive and profitable business models.
Lead process optimisation using statistical data. Design experiments on the production line and functional process control models.
Check, maintain and repair electrical and electronic elements. Check and update software of automated equipment.
Build a lasting and meaningful relationship with suppliers and service providers in order to establish a positive, profitable and enduring collaboration, co-operation and contract negotiation.
Perform routine maintenance on rotating equipment to ensure that it is clean and in safe, working order.
Observe principles in keeping an engineering watch. Take over, accept and hand over a watch. Perform routine duties undertaken during a watch. Maintain the machinery space logs and the significance of the readings taken. Observe safety and emergency procedures. Observe safety precautions during a watch and take immediate actions in the event of fire or accident, with particular reference to oil systems.
Organize, manage, and maintain all aspects of production, including product design, production planning, and production control systems (for example by the use of the computer program WFM).
Monitor equipment which provides utility services such as power, heat, refrigeration, and steam, in order to ensure they are functional, operate according to regulations, and to check for faults.
Operate motorised agricultural equipment including tractors, balers, sprayers, ploughs, mowers, combines, earthmoving equipment, trucks, and irrigation equipment.
Use radios that can receive and transmit sound signals in order to communicate with similar radios on the same frequency such as mobile phones and walkie talkies.
Analyse and identify the strengths and weaknesses of solutions, conclusions or approaches to problems; formulate and plan alternatives.
Supervise the installation of the aircraft sensors and recording systems during the flight tests to ensure that they meet required data paramaters.
Perform flight manoeuvres in critical situations, and associated ‘upset’ manoeuvres, in order to avoid collision.
Weld metal, mostly steel, workpieces together using active gas mixtures such as concotions of argon, carbon dioxide and oxygen.
Weld metal workpieces together using inert gasses or gas mixtures such as argon and helium. This technique is usually used for welding aluminium and other non-ferrous metals.
Perform checks before and during flight: conduct pre-flight and in-flight inspections of aircraft performance, route and fuel usage, runway availability, airspace restrictions, etc.
Perform normal and cross-wind take-off and landing operations.
Weld metal workpieces together by tungsten intert gas (TIG) welding. This arc welding process welds metal workpieces using the heat generated between an arc of electricity struck between a non-consumable tungsten metal electrode. Use an argon or helium inert gas to shield the weld from athmospheric contamination.
Inspect and assure the quality of welded metals using diverse testing techniques.
Plan best allocation and utilisation of space and resources, or re-organise current premises.
Draft the test plan by describing maneuver-by-maneuver for each test flight in order to to measure take-off distances, rate of climb, stall speeds, manoeuvrability and landing capacities.
Ensure that hygiene procedures in agricultural settings are followed, taking into account the regulations of specific areas of action e.q. livestock, plants, local farm products, etc.
Use specific non-destructive testing methods and equipment that do not cause any damage to the product, such as X-rays, ultrasonic testing, magnetic particle inspection, industrial CT scanning and others, in order to find defects in and assure quality of a manufactured and a repaired product.
Adjust work schedule in order to maintain permanent shift operation.
Advise individual or corporate customers on the acquisition of new equipment such as machinery, tools or systems by identifying their needs and comparing the products that would suit them best.
Analyse information and details of processes and products in order to advise on possible efficiency improvements that could be implemented and would signify a better use of resources.
Offer advice to service technicians in case of machinery malfunctions and other technical repair tasks.
Advise the visited industrial plants on how to better oversee production to ensure that the manufacturing problems are correctly diagnosed and solved.
Provide relevant recommendations following the conclusion of an investigation; ensure that recommendations are duly considered and where appropriate acted upon.
Analyses packaging requirement against the design of the production plan. Perform the analysis considering engineering, economic, ergonomic, and other perspectives.
Analyse production processes leading toward improvement. Analyse in order to reduce production losses and overall manufacturing costs.
Analyse the ability of materials to endure stress imposed by temperature, loads, motion, vibration, and other factors using mathematical formulae and computer simulations.
Interpret and analyse data collected during testing in order to formulate conclusions, new insights or solutions.
Improve production rates, efficiencies, yields, costs, and changeovers of products and processes using relevant advanced, innovative, and cutting edge technology.
Apply and work with a variety of techniques in the process of arc welding, such as shielded metal arc welding, gas metal arc welding, submerged arc welding, flux-cored arc welding, and others.
Apply and work with a variety of techniques in the process of brazing, such as torch brazing, braze welding, dip brazing, and others.
Explain technical details to non-technical customers, stakeholders, or any other interested parties in a clear and concise manner.
Assemble the necessary hardware components, such as the motherboard, Central Processing Unit (CPU), hard drive, disk drive, power supply unit, RAM, PCI card, mouse, keyboard, cameras and other necessary components to build the computer device. Attach the components manually using screwdrivers or use assembly machines and install the wiring.
Revise and analyse financial information and requirements of projects such as their budget appraisal, expected turnover, and risk assessment for determining the benefits and costs of the project. Assess if the agreement or project will redeem its investment, and whether the potential profit is worth the financial risk.
Attend exhibitions organised to enable companies in a specific sector to demonstrate their latest products and services, study the activities of their competitors, and observe recent market trends.
The discipline of engineering that combines mechanical, electrical, electronic, software and safety engineering to design motor vehicles such as trucks, vans and automobiles.
Build a model of the product out of wood, clay or other materials by using hand or electrical tools.
Establish a positive, long-term relationship between organisations and interested third parties such as suppliers, distributors, shareholders and other stakeholders in order to inform them of the organisation and its objectives.
Respond to and communicate with customers in the most efficient and appropriate manner to enable them to access the desired products or services, or any other help they may require.
Conduct a comprehensive and systematic research of information and publications on a specific literature topic. Present a comparative evaluative literature summary.
Conduct experimental, environmental and operational tests on models, prototypes or on the systems and equipment itself in order to test their strength and capabilities under normal and extreme conditions.
Conduct inspections and tests of services, processes, or products to evaluate quality.
Read and interpret technical resources such as digital or paper drawings and adjustment data in order to properly set up a machine or working tool, or to assemble mechanical equipment.
Monitor and control budgets and financial resources providing capable stewardship in company management.
Monitor and maintain effective cost controls, in regards to efficiencies, waste, overtime and staffing. Assessing excesses and strives for efficiency and productivity.
Plan, coordinate, and direct all production activities to insure the goods are made on time, in correct order, of adequate quality and composition, starting from intake goods up to shipping.
Plan, coordinate and supervise engineering activities together with engineers and engineering technicians. Ensure clear and effective channels of communication across all departments. Make sure the team is aware of the standards and objectives of the research and development.
Create a mathematical or three-dimensional computer graphic model of the product by using a CAE system or a calculator.
Work with management practices such as continuous improvement, preventive maintenance. Pay attention to problem solving and teamwork principles. Empower teams to identify opportunities and then drive the process to improve the results.
Solve problems which arise in planning, prioritising, organising, directing/facilitating action and evaluating performance. Use systematic processes of collecting, analysing, and synthesising information to evaluate current practice and generate new understandings about practice.
Create detailed technical plans of machinery, equipment, tools and other products.
Design engineering parts, assemblies, products, or systems that contribute to the automation of industrial machines.
Draft sketches and design electromechanical systems, products, and components using Computer Aided Design (CAD) software and equipment.
Design the appropriate firmware to a specific electronic system.
Design and develop microelectromechanical systems (MEMS), such as microsensing devices. Make a model and a simulation using technical design software to assess the viability of the product and examine the physical parameters to ensure a successful production process.
Design prototypes of products or components of products by applying design and engineering principles.
Determine how many parts or tools can be manufactured by one machine during one production cycle.
Determine if a product or its components can be produced by applying engineering principles.
Develop testing protocols to enable a variety of analyses of electronic systems, products, and components.
Develop testing protocols in collaboration with engineers and scientists to enable a variety of analyses such as environmental, chemical, physical, thermal, structural, resistance or surface analyses on a wide range of materials such as metals, ceramics or plastics.
Design and optimise new techniques for welding together metal pieces; devise a solution to a welding problem after having performed research into the matter. Take into account the properties of the welding materials and the equipment.
Develop and record the procedural method used for a specific scientific experiment in order to enable its replication.
Develop testing protocols to enable a variety of analyses of products, systems, and components.
Set up a list of materials, components, and assemblies as well as the quantities needed to manufacture a certain product.
List the design specifications such as materials and parts to be used and a cost estimate.
Create rough pictures to assist in creating and communicating design concepts.
Monitor activities and perform tasks ensuring compliance with standards involving environmental protection and sustainability, and amend activities in the case of changes in environmental legislation. Ensure that the processes are compliant with environment regulations and best practices.
Ensure the necessary, usually constant, pressure of gas which is part of a machine or tool, such as torching equipment, used to process metal workpieces during metal fabrication processes.
Ensure that the necessary equipment is provided, ready and available for use before start of procedures.
Ensure that the equipment required for operations is regularly checked for faults, that routine maintenance tasks are performed, and that repairs are scheduled and performed in the case of damage or flaws.
Ensure that finished products meet or exceed company specifications.
Ensure that all legal requirements are met.
Ensure health and safety of personnel during manufacturing process.
Produce accurate calculations on time necessary to fulfil future technical tasks based on past and present information and observations or plan the estimated duration of individual tasks in a given project.
Evaluate the need for labour for the work ahead. Evaluate the performance of the team of workers and inform superiors. Encourage and support the employees in learning, teach them techniques and check the application to ensure product quality and labour productivity.
Analyse the principles that need to be considered for engineering designs and projects such as functionality, replicability, costs and other principles.
Apply mathematical methods and make use of calculation technologies in order to perform analyses and devise solutions to specific problems.
Perform the evaluation and assessment of the potential of a project, plan, proposition or new idea. Realise a standardised study which is based on extensive investigation and research to support the process of decision making.
Lead and manage according to the organisation's code of conduct.
Apply systematic research methods and communicate with relevant parties in order to find specific information and evaluate research results to assess the information's relevance, relating technical systems and developments.
Perform safety audits and inspections on workplaces and workplace equipment. Ensure that they meet safety regulations and identify hazards and risks.
Analyse the training problems and identify the training requirements of an organisation or individuals, so as to provide them with instruction tailored to their prior mastery, profile, means and problem.
Conduct inspections in the aviation industry; inspect plants where aircraft parts are manufactured to ensure safety and quality control. Ensure that aircraft components are manufactured in compliance with safety and design specifications.
Inspect equipment used during industrial activities such as manufacturing or construction equipment in order to ensure that the equipment complies with health, safety, and environmental legislation.
Use various techniques to ensure the product quality is respecting the quality standards and specifications. Oversee defects, packaging and sendbacks of products to different production departments.
Install machine-readable instructions, such as computer programs, in order to direct the computer's processor to perform a certain set of actions.
Assist with the integration of new systems, products, methods, and components in the production line. Ensure that production workers are properly trained and follow the new requirements.
Collaborate with engineers to ensure common understanding and discuss product design, development and improvement.
Liaise with managers of other departments ensuring effective service and communication, i.e. sales, planning, purchasing, trading, distribution and technical.
Work closely with the relevant quality assurance or grading party involved.
Maintain agricultural facilities and equipment in order to ensure that it is clean and in safe, working order. Perform routine maintenance on equipment and adjust or repair when necessary, using hand and power tools. Replace defective parts components or systems.
Diagnose and detect malfunctions in electromechanical components and systems and remove, replace, or repair these components when necessary. Execute preventative equipment maintenance tasks, such as storing the components and machines in clean, dust-free, and non-humid spaces.
Keep track of and finalise all formal documents representing the financial transactions of a business or project.
Perform routine maintenance on industrial machinery and equipment to ensure that it is clean and in safe, working order.
Plan, monitor, report on the budget and prepare set production budgets.
Manage the procedures to be used in chemical testing by designing them and conducting tests accordingly.
Oversee all personnel and processes to comply with health, safety and hygiene standards. Communicate and support alignment of these requirements with the company's health and safety programmes.
Conduct employee recruitment, helping employees to develop their personal and organisational skills, knowledge, and competencies as well as providing feedback and performance appraisals. It includes motivating employees, by implementing rewarding systems (managing pay and benefit systems) in order to maximise employee performance with regard to employer's strategic objectives.
Oversee the testing procedures to ensure that the end-product complies with the quality and safety requirements.
Manage employees and subordinates, working in a team or individually, to maximise their performance and contribution. Schedule their work and activities, give instructions, motivate and direct the workers to meet the company objectives. Monitor and measure how an employee undertakes their responsibilities and how well these activities are executed. Identify areas for improvement and make suggestions to achieve this. Lead a group of people to help them achieve goals and maintain an effective working relationship among staff.
Monitor and control the flow of supplies that includes the purchase, storage and movement of the required quality of raw materials, and also work-in-progress inventory. Manage supply chain activities and synchronise supply with demand of production and customer.
Continuously check up on the automated machine's set-up and execution or make regular control rounds. If necessary, record and interpret data on the operating conditions of installations and equipment in order to identify abnormalities.
Monitor quality standards in manufacturing and finishing process.
Monitor plant processes and efficiency set-up to ensure the maximum output of production levels.
Monitor parameters to keep an eye on the production, developments and costs within your area of control.
Use equipment designed for brazing processes in order to melt and join together pieces of metal or steel.
Operates control panels in the cockpit or flight deck according to the needs of the flight. Manage on-board electronic systems to ensure a smooth flight.
Operate the equipment used for oxygen and nitrogen extraction equipment such as compressors, fractionating columns, heat exchangers and purifying towers.
Operate the equipment used in hydrogen extraction and processing.
Operate a cutting torch fueled by oxyacetylene gas safely to perform welding processes on a workpiece.
Measure the size of a processed part when checking and marking it to check if it is up to standard by use of two and three dimensional precision measuring equipment such as a caliper, a micrometer, and a measuring gauge.
Operate radio navigation instruments to determine the position of aircraft in the airspace.
Use soldering equipment to melt and join together pieces of metal or steel, such as a soldering gun, soldering torch, gas-powered iron, and others.
Use welding equipment to melt and join together pieces of metal or steel, wearing protective eyewear during the working process.
Give technical instructions to assembly workers and control their progress to ensure compliance with quality standards and to check that the goals set in the production plan are met.
Gather, assess and represent data about target market and customers in order to facilitate strategic development and feasibility studies. Identify market trends.
Manage and plan various resources, such as human resources, budget, deadline, results, and quality necessary for a specific project, and monitor the project's progress in order to achieve a specific goal within a set time and budget.
Estimate the expected input in terms of time, human and financial resources necessary to achieve the project objectives.
Perform tests putting a system, machine, tool or other equipment through a series of actions under actual operating conditions in order to assess its reliability and suitability to realise its tasks, and adjust settings accordingly.
Determine and schedule production and assembly steps. Plan manpower and equipment needs taking ergonomic considerations into account.
Come up with new ideas concerning the size, shape and colour of packaging.
Prepare early models or prototypes in order to test concepts and replicability possibilities. Create prototypes to assess for pre-production tests.
Program permanent software with a read-only memory (ROM) on a hardware device, such as an integrated circuit.
Prepare, compile and communicate reports with broken down cost analysis on the proposal and budget plans of the company. Analyse the financial or social costs and benefits of a project or investment in advance over a given period of time.
Identify root causes of problems and submit proposals for effective and long-term solutions.
Read the technical drawings of a product made by the engineer in order to suggest improvements, make models of the product or operate it.
Read and comprehend standard blueprints, machine, and process drawings.
Recognise the symptoms of metal showing oxidation reactions with the environment resulting in rusting, copper pitting, stress cracking, and others, and estimate the rate of corrosion.
Recommend product modifications, new features or accessories to keep customers interested.
Record data which has been identified specifically during preceding tests in order to verify that outputs of the test produce specific results or to review the reaction of the subject under exceptional or unusual input.
Hire new employees by scoping the job role, advertising, performing interviews and selecting staff in line with company policy and legislation.
Use specialised tools to convert 3D wire frame models into 2D images with 3D photorealistic effects or non-photorealistic rendering on a computer.
Evaluate when to invest in replacing machines or machine tools and take the necessary actions.
Produce research documents or give presentations to report the results of a conducted research and analysis project, indicating the analysis procedures and methods which led to the results, as well as potential interpretations of the results.
Use a wide network to inform yourself of the various existing techniques used for welding metal pieces, their qualities and applications.
Schedule the production aiming maximum profitability while still maintaining the company KPIs in cost, quality, service and innovation.
Ensure a high standard of safety and quality in facilities, systems, and workers' behaviour. Ensure adherence to procedures and audit standards. Ensure that machinery and appliances in the production plant are appropriate for their task.
Set up and programme an automotive robot working on machine processes and substituting or collaboratively supporting human labour, such as the six-axis automotive robot.
Set up and give commands to a machine by dispatching the appropriate data and input into the (computer) controller corresponding with the desired processed product.
Observe and identify various kinds of imperfections in metal workpieces or finished products. Recognise the best fitted manner of fixing the problem, which could be caused by corrosion, rust, fractures, leaks, and other signs of wear.
Oversee the selection, training, performance and motivation of staff.
Perform the testing procedures on the already prepared chemical samples, by using the necessary equipment and materials. Chemical sample testing involves operations such as pipetting or diluting schemes.
Test the purity of the gas using specific testing equipment.
Lead and guide employees through a process in which they are taught the necessary skills for the perspective job. Organise activities aimed at introducing the work and systems or improving the performance of individuals and groups in organisational settings.
Identify operating problems, decide what to do about it and report accordingly.
Use computer-aided design (CAD) systems to assist in the creation, modification, analysis, or optimisation of a design.
Use computer-aided manufacturing (CAM) programmes to control machinery and machine tools in the creation, modification, analysis, or optimisation as part of the manufacturing processes of workpieces.
Use the laboratory equipment such as Atomic Absorption equimpent, PH and conductivity meters or salt spray chambre.
Use computer-aided engineering software to conduct stress analyses on engineering designs.
Developing new designs mastering specialised software.
Wear relevant and necessary protective gear, such as protective goggles or other eye protection, hard hats, safety gloves.
Compose regular reports by writing clear observations on the monitored processes in a respective field.