Engineering Solutions for Your Business
Experience reliable and innovative solutions for your engineering needs.
About Wyvern Engineering Services ltd
Our Vision
Our Expertise
Our Expertise
At Wyvern Engineering Services ltd, our vision is to become the leading engineering services provider in the industry by delivering innovative, sustainable, and cost-effective solutions to our clients.
Our Expertise
Our Expertise
Our Expertise
We specialize in providing a wide range of engineering services including Mechanical, Electrical, Controls & Bespoke service solutions to clients across various sectors such as Food, Beverage, Pet food and Automotive Industries.
Our Team
Our Expertise
Our Team
We have a team of highly skilled and experienced engineers who are passionate about delivering exceptional services to our clients. Our team is committed to continuing education and staying up-to-date with the latest trends and technologies in the industry.
Engineering Services by Wyvern Engineering Services ltd
Mechanical Engineering
Our team of expert mechanical engineers can provide design and analysis services for a wide range of products, from consumer goods to heavy industry equipment. We use the latest software and tools to ensure the highest level of accuracy and efficiency.
Electrical Engineering
Our electrical engineering team can provide design and analysis services for a wide range of electrical systems and components, from power distribution to control systems. We use the latest software and tools to ensure the highest level of accuracy and efficiency.
Project Management
Our project management team can provide complete project management services, from planning and scheduling to budgeting and risk management. We use the latest tools and techniques to ensure the successful completion of your project.
Maintenance & Service
Providing maintenance and service in the bakery sector can be crucial for ensuring the smooth operation of bakery equipment and machinery. Bakeries rely on a variety of specialized equipment such as ovens, mixers, proofing cabinets, and dough dividers, all of which require regular maintenance to function efficiently and to prevent unexpected breakdowns that can disrupt production.
Fabrication & Welding
Our fabrication services encompass custom metalwork solutions tailored to your exact specifications. With a focus on precision and quality, we utilize advanced equipment and technology to deliver a wide range of metal fabrication capabilities, including cutting, bending, welding, and finishing. Our experienced team is dedicated to collaborating closely with clients, providing design assistance, and ensuring efficient turnaround times. From prototyping to full-scale production, we take pride in our diverse industry experience and commitment to rigorous quality control and compliance. Choose us for reliable, skilled, and customer-focused fabrication services that meet your unique needs.
Reliability Testing and Inspection
Mechanical Reliability Inspection/Testing
Mechanical reliability testing is a process of evaluating the ability of mechanical systems, components, or materials to perform their intended functions under specified conditions for a defined period of time. This type of testing is essential for ensuring the reliability, durability, and safety of mechanical products and systems. Mechanical reliability testing typically involves subjecting the test specimens to various mechanical stresses and environmental conditions to assess their performance and behavior.
1. **Vibration testing:** This involves subjecting the test specimen to controlled vibrations to simulate real-world conditions and assess its structural integrity and performance under vibration-induced stresses.
2. **Shock testing:** Shock testing evaluates how a specimen or product responds to sudden, high-impact forces. It helps assess the ability of the product to withstand sudden impacts and mechanical shocks.
3. **Fatigue testing:** Fatigue testing involves subjecting the specimen to repeated or cyclic mechanical loading to evaluate its endurance limit and behavior under repeated stresses, which is crucial for assessing the long-term durability and reliability of materials and components.
4. **Tensile testing:** Tensile testing is used to assess the mechanical strength, ductility, and elasticity of materials by subjecting them to controlled tensile forces until failure occurs.
5. **Compression testing:** Compression testing involves applying compressive forces to materials or components to evaluate their compressive strength, stability, and behavior under compression.
6. **Environmental testing:** Mechanical reliability testing may also include subjecting specimens to various environmental conditions such as temperature extremes, humidity, and exposure to corrosive substances to evaluate their performance under different environmental stressors.
By conducting mechanical reliability testing, engineers and manufacturers can identify potential weaknesses, design flaws, or material deficiencies that may lead to mechanical failures, and take corrective measures to improve the reliability and durability of their products and systems.
Electrical Reliability Inspection/Testing
Electrical reliability engineering is a specialized discipline within the broader field of reliability engineering that focuses on ensuring the dependability, safety, and performance of electrical systems, components, and devices. It involves the application of engineering principles and methodologies to assess, improve, and maintain the reliability of electrical infrastructure and equipment.
1. **Component reliability analysis:** Evaluating the reliability of individual electrical components such as switches, relays, connectors, and integrated circuits to understand their failure modes, failure rates, and operational limitations.
2. **System reliability assessment:** Analyzing the reliability of entire electrical systems, including power distribution networks, control systems, electronic devices, and communication systems, to identify potential failure points and vulnerabilities.
3. **Failure mode and effects analysis (FMEA):** Conducting FMEA to systematically review and analyze potential failure modes within electrical systems, as well as the potential effects of those failures, in order to prioritize and address critical issues.
4. **Reliability testing:** Performing electrical reliability tests to assess the performance of electrical components and systems under various operating conditions, environmental stresses, and electrical loads.
5. **Predictive maintenance:** Implementing predictive maintenance strategies that utilize data analysis, condition monitoring, and predictive algorithms to anticipate and prevent electrical system failures before they occur.
6. **Root cause analysis:** Investigating electrical failures to identify the underlying causes and contributing factors, and developing strategies to mitigate the recurrence of similar failures.
7. **Design for reliability:** Integrating reliability considerations into the design and development of electrical systems and components to ensure that they meet reliability and safety requirements.
Electrical reliability engineering is crucial in industries such as power generation, transmission and distribution, telecommunications, electronics manufacturing, and transportation, where electrical systems play a critical role in operational performance, safety, and functionality. By applying principles of electrical reliability engineering, organisation's can enhance the resilience and performance of their electrical infrastructure, minimise downtime, and improve overall system reliability.
