In today’s technologically advanced industries, the integration of robots into various operational processes is no longer a novelty but a necessity.
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These robotic systems, while robust and highly efficient, are susceptible to environmental factors that can significantly impact their performance and longevity.
This is where custom-made robot covers come into play. Tailored specifically to meet the unique demands of different industrial applications, these covers provide unparalleled protection against hazards such as extreme temperatures, chemical exposure, moisture, and physical abrasion.
Investing in a custom-made robot cover is not merely about safeguarding your robotic assets; it’s about enhancing operational efficiency, ensuring compliance with safety standards, and ultimately, extending the life of your equipment.
This article delves into the compelling reasons why a custom-made robot cover is a wise investment for any industry relying on robotic technology.
Customizing robot covers for different industries is a process that involves a deep understanding of both the operational environment and the specific requirements of the machinery being protected.
Manufacturers of robot covers meticulously select fabrics that are tailored to the unique demands of various applications.
For instance, in high-heat environments such as foundries or glass manufacturing, covers are often made from heat-resistant materials like specially treated fabrics that can withstand extreme temperatures without degrading.
This not only protects the robot’s sensitive components from heat damage but also ensures operational efficiency and longevity.
Additionally, customization does not stop at fabric selection; it extends to the strategic design of the covers. For robots operating in environments where certain parts are more exposed to heat than others, manufacturers may use multi-layered designs.
These designs incorporate fabrics with higher heat resistance in critical areas, such as around joints or moving parts that generate friction, while using standard protective materials in less exposed sections.
Furthermore, other environmental factors such as moisture, chemicals, dust, and physical abrasion are also considered, with appropriate materials like waterproof fabrics, chemically resistant coatings, or abrasion-resistant layers being used as needed.
The customization process may also include features like easy-access panels for maintenance, or ventilation systems to prevent overheating.
As robots become increasingly integral to operations across various industries, from automotive manufacturing to pharmaceuticals, the demand for highly customized, durable, and efficient robot covers continues to grow.
This level of customization not only enhances the performance and durability of the robots but also ensures compliance with industry-specific safety and operational standards, ultimately leading to more reliable and efficient industrial processes.
In conclusion, the decision to invest in a custom-made robot cover is a strategic move that offers numerous benefits for any industry utilizing robotic technology.
These tailored covers not only provide superior protection against environmental hazards but also contribute to the overall efficiency and longevity of your robotic systems.
By selecting materials and designs specifically suited to your operational needs, you ensure that your robots can withstand the unique challenges of their working environments, from extreme heat to chemical exposure.
Additionally, the customization options allow for targeted protection, ensuring that the most vulnerable parts of your robots receive the highest level of defence.
As industries continue to evolve and the reliance on automation grows, having a custom-made robot cover is an essential component of maintaining optimal performance and safety standards.
Ultimately, this investment leads to reduced downtime, lower maintenance costs, and enhanced productivity, making it a critical consideration for any forward-thinking business.
Amulya Das, Director of Business Development at Mid-Mountain Materials, Inc., talks to AZoM about the company's robotic protective clothing, ARMATEX® SBN 13-602 ROBOTEX, and other traditional protective fabrics.
Materials that have the ability to protect equipment and instruments from being damaged due to high temperatures are called heat-resistant materials. Mid-Mountain Materials, Inc. is the industry’s leading expert in the manufacture of high performance textiles for extreme temperature protection.
Mid-Mountain develops manufactures and markets high performance coated and treated textiles, fabricated parts, composites and refractories for thermal protection, energy conservation, safety and process-specific applications.
Mid-Mountain works with companies to custom develop products for heat resistance to solve high temperature problems in the most severe industrial environments.
ARMATEX® SBN 13-602 ROBOTEX was initially developed for use as Robotic Protective Clothing for use in extreme environments.
It is a very high strength, aromatic polyamide woven fabric that is coated with a very highly specialized and high performance silicone elastomer.
ARMATEX® SBN 13-602 ROBOTEX fabric exhibits exceptional strength and very high flexural failure resistance due to the strength of its unique base fabric.
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This fabric is woven utilizing a special higher strength aromatic polyamide fibre than most meta-aramid fibre.
Due to its higher crystallinity and strength, it can be used in the most demanding applications requiring high tensile properties, as well as very high chemical and thermal stability.
A wide variety of fabrics are used today for protective covers for workers, equipment and critical processes used in wide variety of industries. Traditional fabrics that are commonly used include:
Its unique construction, engineered from a synthetic aromatic polyamide polymer blend with a unique silicone elastomer, provides superior strength, durability and thermal protection that stands up to the heat. The superior properties of ARMATEX® SBN 13-602 ROBOTEX gives it an advantage over typical industrial fabrics.
These properties include:
ARMATEX® SBN-13-602 ROBOTEX is mainly designed for protective covers for robots and robot systems, for a wide variety of markets with a broad range of harsh operating conditions.
In addition, this technical protective fabric can be used in many other professions to improve personnel safety in the workplace, given it has the following values in protection, and is effective against certain hazards as listed:
Robots improve the quality of work by taking over dangerous, tedious and dirty jobs that are not possible, or safe, for humans to perform. But today’s complex manufacturing processes put Robotic equipment in danger, therefore it is extremely important to protect the robotic equipment in damaging and abusive environments. To protect robots, robotic equipment robot protective clothing was developed, and used as a means to protect the investment of the robot.
Figure 1. Robotic arm clothing / covering. Image Credit: Gretchen Reimbold / Mid-Mountain Materials
Wearing protective clothing, robots can handle tasks in demanding environments with dust, moisture, chemicals, and high and low temperatures. Robot covers are very common these days and provides several advantages to the robot:
Both Personnel Protective Equipment (PPE) and Robotic Protection are designed with the same idea in mind, to protect the operator.
PPE can virtually save a person’s life, depending on the environment and conditions they are working in. The aim of human protective fabric is to provide personnel and possible life-saving protection with a high degree of wearing comfort.
Robot Protective clothing is designed to protect the components of the robot, similar to protecting personnel.
The difference is that Robotic Protection needs to be designed to withstand highly repetitive motions in very abusive environments.
ARMATEX® SBN-13-602 ROBOTEX has very high flexural fail resistance combined with high strength and heat resistance, to accommodate the repetitive movements of the robot in the most extreme environments.
Following are some of the other industries which could use this material successfully.
The robotics industry is looking into a bright future. New manufacturing technologies have generated excitement about what some see as a Third Industrial Revolution. In the years ahead, technological improvements in robotics and automation will boost productivity and efficiency, implying significant economic gains for companies but the initial investments for robots are very high.
Figure 2. Robotic arm clothing must be able to withstand repetitive movements. Image Credit: Gretchen Reimbold / Mid-Mountain Materials
With this Robotic Revolution there is an urgent need of a robust protective cover for robots and robotic systems in the industry for their 100% return in investment, reduced maintenance and reduced down time. Mid-Mountain is undertaking this challenge seriously, and is determined to help in the success of this robotic revolution in various industries.
Recently we have developed ARMATEX® SBN 13-602 ROBOTEX which has uncompromising flexibility including very high strength and resistance to extreme conditions. Currently this product is being tested t in an ALCOA Plant in Australia, where all conventional materials have failed. Furthermore, we are looking forward to working closely in partnership with the Plant, Process and Maintenance Engineers, as well as Managers and Supervisors to determine their solution and make their process a success.
We will also study their particular robots, their movements, their environment, and the chemicals used in their manufacturing, which will influence cover design and materials. We will also help to determine if reusability or disposability is more appropriate for an application, and take into consideration OSHA and/or EPA requirements.
In addition, we will design, create and test samples to test on-site for evaluation of performance and ease of installation, as well as effectiveness. If you have a critical application or you need any help in optimizing your process, efficiency and equipment, please contact us at [ protected] or call us at +1 (800) 382- to discuss your problems and for immediate solution.
Amulya Das is Director of Business Development at Mid-Mountain Materials, Inc., and is based at the company’s manufacturing facility in Arlington, Washington, USA.
Amulya is a Materials Scientist with a degree in Chemistry, and also has a Masters Degree in Chemical Technology with a specialization of Textile & Polymers Science from The Institute of Chemical Technology, Bombay, India.
As Director of Business Development, Amulya works closely with engineers and project managers to develop unique solutions that will address their applications challenges.
Prior to this role, Amulya served as the Manager of the Coating Division at Mid-Mountain, overseeing the manufacture of all standard and custom coated products.
Amulya has 28 years of hands on working experience in manufacturing, engineering, design, and Research & Development with textiles, chemicals, and polymers as well as high performance materials.
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