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Featured
Expert precision engineering in Lymington
... Our expert precision engineering services includes TIG and MIG welding for sheet metal and manual milling for light components. In Lymington. Call 01590 643 ...
Kettering, United Kingdom
1-10 Employees
As a small business with over 30 years' experience, we are committed to providing you with personal services to suit your needs and requirements.
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Featured
High quality precision engineering services in Wellingborough, Northampton
... Bridgman Precision Engineering Ltd can provide you with bespoke engineering services from turning & milling to surface grinding & repairs. Call 01933 ...
Chesterfield, United Kingdom
1-10 Employees
Supporting a large number of customers across a broad range of industries, we offer a comprehensive range of services including CAD design and fabrication work, in addition to manual and CNC precision engineering solutions. Whether you require a “one off” prototype or a large batch production run, the team at Precision Engineering Ltd provides valuable advice to all clients in the interests of producing the best possible outcome.
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Featured
Precision Engineering Services In Derbyshire
... Contact Premier Precision Engineering Ltd 01246 766 570 / var A = "info"; var B = "@"; var C = "premierprecisionengineeringltd.co&# ...
Craigavon, United Kingdom
1-10 Employees
2018
Our mission is to provide high-quality, competitively priced engineering solutions, utilising the latest in multi-axis CNC machining technology. We are dedicated to continuous improvement, employing LEAN manufacturing principles and advanced CAD/CAM techniques to meet and exceed our clients’ exacting requirements. Our vision is to maintain and expand our position as industry leaders, known for our rapid turnaround times, especially in aluminium and plastic parts, and our dedication to customer satisfaction. Located strategically in Portadown, Northern Ireland near the M1 motorway, our facilities offer easy access to clients from across the country, enabling seamless service delivery and collaboration. Our engineers are not just employees; they are craftsmen dedicated to perfection, reflecting our collective passion for precision engineering in every project we deliver. Constantly pushing the boundaries with the latest technology and manufacturing techniques. At Springfort Precision Engineering, we pride ourselves on our exceptional capability to deliver high-quality CNC Manufacturing in a wide range of materials including aluminium, brass, mild steel, stainless steel, and engineering plastics. As an AS9100 & ISO9001 accredited company, we specialise in advanced multi-axis CNC machining, offering bespoke engineering solutions at competitive prices.
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Featured
Springfort Precision Engineering
... Springfort Precision Engineering | Multi-axis CNC ...
Carlisle, United Kingdom
1-10 Employees
We are a precision and general engineering shop. Our services include CNC Milling & Turning, Fabrication & Design. Specialising in CNC Milling and Turning, we strive to provide excellence in the quality of all our work. Continual investment in tooling from leading manufacturers enables us to provide excellent surface finishes and our CNC capabilities ensure repeatability on those close tolerance projects. We can provide one off bespoke machinery and components to batch runs of hundreds straight from a paper sketch, a friendly phone conversation or full engineering drawing. We’re a small manufacturing shop based in Carlisle, Cumbria and we have a passion for all things engineering! Our aim is to supply hand in hand services all in-house to provide a one-stop-shop for all of your engineering needs.
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Featured
Welcome to Croft Precision Engineering
... Based near Carlisle in Cumbria, Croft Precision Engineering provide a wide range of services including CNC Milling, Turning, Surface Grinding & Fabrication. ...
Borough of Pendle, United Kingdom
11-50 Employees
1980
We are a leading supplier of precision tooling for any hot or cold forming process. We manufacture a wide variety of tools from a small press tool up to a 5-tonne SPF assembly. Established in 1979, Straight Line Engineering is a leading supplier of precision tooling for any hot or cold forming process.
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Featured
News | Straight Line Engineering Ltd | Precision Engineering , Die & Forge Tooling
... News | Straight Line Engineering Ltd | Precision Engineering , Die & Forge ...
Australia
11-50 Employees
2021
AMQ was initially created to be the in-house engineering arm for parent company BOSSCAP, a multi-industry company focused on sovereign capability. AMQ has partnerships with higher education institutions and is an active member in various committees and groups that are focused on strengthening Australia’s sovereign capabilities and education standards. At our core is a commitment to customer focus and constant evolution, supported by an engaged team with a passion for advanced manufacturing. Proudly Australian owned, we can assist other industries to onshore manufacturing and expertise to ensure the future of Australian Industry. We’re proud to work with companies and institutes that lead and inspire their industries.
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Featured
Multi-Industry Precision Engineering
... Advanced Manufacturing Queensland are experts in precision engineering. We specialise in design and rapid prototyping through a comprehensive selection of technologies and techniques. ...
Bristol, United Kingdom
1-10 Employees
2018
We are accredited to ISO 9001 : 2015, which is a testament to our commitment to maintaining the highest quality standards in everything we do. We are also on the way to being AS9100D accredited, having already passed stage 1 of the certification process. We are constantly investing in modern machinery, process improvement and staff development. Our team comprises experienced engineers, operators, and technicians who are passionate about delivering exceptional results every time. This means that our clients can have complete confidence in our ability to deliver precision engineering solutions that meet the most stringent quality requirements. CNC machining is a process in which computer-controlled machines use pre-programmed software to manipulate tools and equipment to manufacture precise components or parts. Turnaround time for CNC machining projects depends on factors such as the complexity of the part, the quantity required, and the availability of materials. However, many CNC machining companies offer fast turnaround times and can deliver parts within a few days.
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Featured
About our companyNerc Precision Engineering Ltd
... Nerc Precision Engineering are precision CNC machinists based in Bristol offering precision engineering services for customer UK wide. ...
Ireland
1-10 Employees
We are constantly growing our business through reinvestment in our plant, machinery and processes. VK Precision Tool now located in Ashbourne Co.Meath are a precision engineering company established in 1995. We have built a strong reputation for providing competitively priced high quality engineering and toolmaking services to a variety of sectors ranging from automotive, plastics, pharmaceutical, medical device and oil and gas industries. At VK Precision Tool our aim is to provide an excellent service, build strong relationships with our customers and supply superior high quality, cost effective tooling solutions through continuous investment in technology and the latest manufacturing processes.We are committed to long term growth and economic sustainability and are always ready for the challenges set out by customers and the ever changing dynamics of global industry. At VK Precision Tool Ltd we offer a full 360° service to our clients which starts with initial consultations with our design engineers to prototyping and product manufacture. We also offer full maintenance and support, both offsite and onsite so you can be assured you get the best quality and service. Our aim is to provide an excellent service, build strong relationships with our customers and supply superior high quality, cost effective tooling solutions through continuous investment in technology and the latest manufacturing processes. We pride ourselves on manufacturing bespoke metal parts to customer specifications at the higest quality standard.
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Featured
Precision Engineering | Toolmaking Specialists
... (now located in Ashbourne Co.Meath) is a precision engineering company established in 1995. We have built a strong reputation for providing competitively priced high quality engineering and toolmaking services to a variety of sectors ranging from automotive, plastics, pharmace ...
Bristol, United Kingdom
1-10 Employees
We are proud that the majority of our business comes from longstanding and returning customers who trust us to deliver their order when expected. We manufacture small and medium batch components to your exact specification from a wide range of materials. Founded in 1977 and based in Hadlow, Kent, Bass Engineering constantly provides a loyal, reliable and competitively priced service. Continuous investment in modern machinery guarantees production of a high quality component every time. We also a offer variety of Electroplating Services. We aim to provide realistic lead times, competitive pricing and always update customers on the progress of their order. At Bass Engineering we like to provide a friendly and personal service and when possible, deliveries are made in person to ensure safe delivery of goods.
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Featured
Quality Assured Precision Engineering
... Need to discuss your individual precision engineering requirements? ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Precision Engineering
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 1085 |
| Amount of suitable service providers | 1341 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1980 |
| Youngest suiting company | 2021 |
Precision engineering is a sub-discipline of engineering that involves designing machines, fixtures, and other structures that have exceptionally low tolerances and are stable over time. This discipline focuses on the development and design of highly accurate and reliable components and systems, which are integral to the functionality of complex machinery and equipment. It encompasses a wide range of engineering fields, including mechanical, electrical, and optical engineering, and employs various advanced technologies such as computer numerical control (CNC) machining, 3D printing, and microfabrication techniques to achieve high levels of precision and efficiency. The primary goal of precision engineering is to ensure that the final products not only meet exact specifications with minimal error margins but also exhibit superior performance, longevity, and reliability. This meticulous approach to engineering is critical in industries where precision is paramount, such as aerospace, automotive, medical devices, and semiconductor manufacturing. In these sectors, the slightest deviation from the intended design can lead to significant performance issues or even catastrophic failures. Therefore, precision engineering plays a crucial role in enhancing the quality and safety of products, driving innovation, and improving the overall efficiency of manufacturing processes. Its impact extends beyond the immediate benefits of improved product performance to include greater economic efficiency and competitiveness in the global market.
1. Enhanced Product Performance
Precision engineering allows for the production of components with extremely tight tolerances, ensuring that each part fits and operates perfectly with others. This level of accuracy improves the overall functionality and reliability of the final product, leading to superior performance in comparison to products manufactured using less precise methods.
2. Increased Durability
By employing precision engineering techniques, products are made with materials and craftsmanship of the highest quality. This meticulous attention to detail not only enhances the product's performance but also significantly extends its lifespan. Components are less prone to wear and tear, reducing the need for frequent replacements and maintenance.
3. Cost Efficiency
Although the initial investment in precision engineering may be higher, the long-term savings are substantial. The production of highly accurate parts reduces waste and the need for rework, saving materials and labor costs. Furthermore, the increased durability and reliability of precision-engineered products lower the total cost of ownership for consumers.
4. Customization and Flexibility
Precision engineering offers unparalleled flexibility in manufacturing, catering to custom and complex designs with ease. This adaptability allows for the creation of unique and innovative products, meeting specific customer requirements that would be difficult or impossible to achieve with standard engineering practices.
While evaluating the different suppliers make sure to check the following criteria:
1. Technical Expertise and Capabilities
Ensure the supplier has a strong track record in precision engineering, with the necessary technical expertise and equipment to meet your specific requirements.
2. Quality Assurance Processes
Check for certifications like ISO 9001 to ensure they have robust quality management systems in place. It's crucial that they can consistently produce high-quality parts and components.
3. Lead Times
Assess their ability to deliver within your required timelines. Reliable and realistic lead times are essential for maintaining your project schedules.
4. Cost Competitiveness
While quality should not be compromised, comparing quotes can help ensure you are getting the best value for your investment.
5. Scalability
The supplier should be able to scale production up or down based on your needs, without a significant impact on cost, quality, or delivery times.
6. Communication and Support
Effective communication is key to any partnership. Ensure the supplier offers responsive customer service and technical support throughout the project lifecycle.
7. Innovation and Continuous Improvement
Choose a supplier that invests in research and development to stay ahead of industry advancements, offering you the latest solutions and continuous improvements in their processes.
Precision engineering plays a critical role in various industries, offering solutions that require high levels of accuracy and quality. In the aerospace sector, precision engineering is indispensable for manufacturing components such as engine parts and navigation systems that must adhere to stringent standards for safety and functionality. These components often require tolerances in the micrometer range, necessitating sophisticated manufacturing techniques. In the medical devices industry, precision engineering is utilized to create intricate and reliable instruments for surgeries and diagnostics. This includes everything from surgical tools to implants, where even the slightest deviation can significantly impact performance and patient safety. The exacting standards ensure devices are both effective and safe for medical use. The automotive industry benefits from precision engineering in the development of high-performance parts for vehicles, including electric and hybrid models. Components like fuel injection systems and electric motor parts demand high precision to ensure efficiency, performance, and longevity. This precision is crucial for meeting the automotive industry's rigorous safety and performance standards. In the realm of electronics, precision engineering underpins the fabrication of microchips and semiconductors, which are foundational to the functionality of virtually all modern electronic devices. The process requires exceptional precision to create complex circuits on a microscopic scale, enabling the continued advancement and miniaturization of electronic technology. Through these use cases, precision engineering proves to be a cornerstone of innovation and quality across multiple industries, driving forward technological advancements and ensuring products meet the highest standards of performance and reliability.
Precision engineering, encompassing the design, development, and implementation of highly accurate engineering components and systems, currently spans multiple Technology Readiness Levels (TRLs) due to its broad application across various sectors such as aerospace, automotive, and medical industries. Its TRL ranges from 4 to 9, depending on the specific technology or application in question. At the lower end (TRL 4), we observe the development and validation of component technologies in a laboratory environment, particularly in novel materials or microfabrication technologies that are just transitioning from theoretical or experimental proofs of concept. This reflects ongoing research and the refinement of fabrication techniques to achieve unprecedented levels of precision. At the higher end (TRL 9), precision engineering technologies are fully integrated and operational in commercial or real-world settings, exemplified by the widespread adoption of computer numerical control (CNC) machining tools, additive manufacturing (3D printing) with micron-level accuracy, and advanced metrology instruments. This broad TRL range is indicative of the field's continuous innovation alongside the successful maturation and deployment of technologies that meet the stringent accuracy and reliability requirements of high-tech industries. The technical reasons for this span in TRLs include the complexity of scaling precision fabrication processes from lab to industry, the challenges in maintaining accuracy and repeatability under varying operational conditions, and the integration of these technologies into existing manufacturing ecosystems.
In the short term, precision engineering is set to undergo significant advancements in materials technology and manufacturing processes. Developments in ultra-high precision measurement technologies and the integration of AI for predictive maintenance will enhance the accuracy and lifespan of precision-engineered components. The adoption of additive manufacturing (3D printing) techniques with materials like advanced polymers and metal alloys will also accelerate, enabling the creation of complex geometries not possible with traditional manufacturing methods. Mid-term advancements will focus on the integration of nanotechnology and micro-electro-mechanical systems (MEMS) into precision engineering. This will usher in a new era of miniaturization and efficiency, with applications ranging from medical devices to aerospace components. Enhanced computational methods and the advent of quantum computing will provide unprecedented simulation capabilities, allowing for the design and testing of components at the molecular level. These technologies will also facilitate significant improvements in the speed and precision of manufacturing processes. In the long term, precision engineering is expected to achieve breakthroughs in the development of smart materials and self-assembling structures. These materials will have the ability to change their physical properties in response to external stimuli, offering groundbreaking applications in various fields. The convergence of biotechnology and precision engineering will likely result in bio-engineered materials and components with self-healing and adaptive capabilities. Additionally, the widespread adoption of nanotechnology will enable the mass production of nanoscale devices, revolutionizing industries from electronics to healthcare.
