Medical Device Manufacturer Launching a New Metal Alloy Prosthesis

Do you need this or any other assignment done for you from scratch?
We assure you a quality paper that is 100% free from plagiarism and AI.
You can choose either format of your choice ( Apa, Mla, Havard, Chicago, or any other)

NB: We do not resell your papers. Upon ordering, we do an original paper exclusively for you.

NB: All your data is kept safe from the public.

Click Here To Order Now!

Medical Device Manufacturer Launching a New Metal Alloy Prosthesis

Introduction

The medical sector is regarded as one of the most important departments across the globe. It deals with human wellness, making this docket a more sensitive field than other areas of work. Introducing new devices into the medical sector requires good research to avoid any risks associated with it. The World Health Organization is the major regulatory body monitoring health activities worldwide. When metal alloys were put into use, they were subjected to proper research activities to avoid affecting humans adversely. This presentation covers the introduction of stainless steel and how it became the most used metal allowed across the globe in the health sector.

General Product Information

The health sector needs special attention when it comes to innovations. When introducing new machinery to be used in hospitals and other healthcare facilities, it is important to note the effects. In recent times, suppliers of metal alloys to the health industry have had massive profits. This discussion covers the use of stainless steel in the health sector. Stainless steel is approximately 100 years old, dating back to 1912 and 1916. Companies dealing with this metal collectively produce around 40 million tons of stainless steel annually. Early innovations from Harry Brearley and Benno Strauss from England made a breakthrough in this industry. Since then, there have been new developments to reduce the amounts of impurities in the metals.

The corrosion would take place, and the metal would rust. In a bid to counter this, there was an introduction of titanium, making it mix with carbon and form titanium carbides. This made it impossible for rusting and corrosion to take place. This is because chromium was left to perform its intended job. An example of this titanium is stabilized 321 material which is similar to 304L except for its titanium addition. This metal is employed for a wide range of applications in many industries. These include chemical plant industries, military, and aerospace, as well as the medical field.

Introduction of Stainless Steel to the Medical Sector

Stainless steel is preferred by the medical and healthcare sector since it does not rust. This alloy is used to make different tools and machinery in the medical healthcare sector. Surgical procedures involve complexities that require the use of metallic objects in the recent past. Safety and comfort of the consumers are termed key factors in the choice of metal alloy to be used. In this case, the metal alloy of stainless steel is considered an important tool by the Department of Wellness across the globe. Those tasked to make new devices for use by the Department of Health are to be keen on the quality to be produced. The materials they purchase must match the quality of the job at hand as specified by the consumers.

Advantages of the Metal

Buyers tend to purchase material that is inexpensive and works perfectly well in this sector of human wellness. How the consumers share information within their working environment depends on how the organization has made arrangements for the same. It is easier to use electronic means of transmitting data and info as compared to other manual means. It is possible to access resources that are not available within a health facility from another one. The metal is also resistant to corrosion, especially when exposed to air since it forms a thin layer of oxide on the surface. It is strong and non-toxic to humans with low thermal expansion. Its melting point is high to accommodate the mechanical properties.

Impact of Outside Agencies

Products made by this company of steel are seen as durable and serve the needed purpose, especially by the health sector that requires clean tools that do not rust. It is possible to use these products without having to worry about their destruction or faulty functioning. These objects do not need oiling or painting to maintain. They are therefore easy to maintain and cheap to both purchase and keep in the needed order. Medical device parts are small and intricate, and automatic stamping pressing can be used in forming shapes. Strips and wires are the best suited in the processing and are used as the starting materials.

Impact of Regulations

Universal Health Coverage (UHC) is a worldwide body that pushes all healthcare providers across the globe to meet their policies. Regulations set by the UHC are designed to ensure that all individuals receive health services without financial struggles. Medical services should be provided by qualified personnel to avoid misunderstandings and possible inconveniences. There are some characteristics to consider when purchasing these alloy metals. For instance, fluids that contain halogen should be avoided because they cause stress corrosion if not removed after machining operations thoroughly. The formability of the materials is also a key factor as the stampers may prefer ones that are simple to form.

Regulations set by the Ministry of Health in different countries across the globe require the manufacture of quality tools to be used in different health sectors. This means that companies and other industries dealing with the manufacture of stainless steel are well-monitored by the health sector. This is to ensure tools that are used in the treatment of patients function without faults and failure. Tools must be checked carefully before the supply of orders is made (Kurzynowski et al., 2018). Policies set by the ministries of health in different countries must be followed to the latter.

Anticipating the Changing In the Market

The use of stainless steel in the health sector needs the involvement of analysts to predict market patterns. Market trends change depending on the need and demands of the consumers. The health sector finds it tough to predict changes in patterns of how their consumers will use a particular medical product. The medics can only estimate the number of patients and know the number of stainless-steel products to order. It is, however, important to market steel products in the modern era. These products vary in functionality and therefore require extra scrutiny in determining what to order (Ye et al., 2020). It is, however, important to note that steel products are durable and, in any case of excess supply, can be stored for future use when the need arises.

The healthcare industry then introduced new machines and tools to be used across the globe to better their services to their clients. Some of these machines and tools incorporated the use of stainless steel since it has no impurities and does not rust. This gives it a competitive edge when compared to other metal alloys used in the world today. The technology used in manufacturing these metal alloys goes hand in hand with the methods available for refining and smelting them. The defining aspect of converter technologies is the ability to remove carbon bulk from pig iron. This happens when iron ore is removed and reduced by using coke.

Conclusion

Admittedly, stainless steel is the most effective and widely used metal alloy across the globe by medics. Stainless steel products can be used for a long duration for reusable tools or devices. Steel has good qualities of resisting corrosion and rusting when exposed to extreme conditions and reacting with oxygen. This makes it the most preferred metal when manufacturing needles, surgical blades, and other tools in the healthcare sector. It is therefore advisable to involve the use of stainless in future innovations and research that seek to bring improvements in the health sector.

References

Kurzynowski, T., Gruber, K., Stopyra, W., Kuznicka, B., &Chlebus, E. (2018). Correlation between process parameters, microstructure and properties of 316 L stainless steel processed by selective laser melting. Materials Science and Engineering: A, 718, 64- 73.

Ye, Y., Li, W., & Guo, Z. X. (2020). Performance of concrete-filled stainless steel tubes subjected to tension: Experimental investigation. Thin-Walled Structures, 148, 106602.

Do you need this or any other assignment done for you from scratch?
We assure you a quality paper that is 100% free from plagiarism and AI.
You can choose either format of your choice ( Apa, Mla, Havard, Chicago, or any other)

NB: We do not resell your papers. Upon ordering, we do an original paper exclusively for you.

NB: All your data is kept safe from the public.

Click Here To Order Now!