6 Sigma Categories
Business & Career Improvement
The Importance of the Machinery Industry in the World Today
- Categorized in: Six Sigma in Manufacturing, Six Sigma Specialized (By Industry) - Implementing The DMAIC Methodology
Many innovations have been made to the world through the years. In the course of human history, these changes have played a great role in affecting the life of man in a given time period. One of the most important periods that ushered in the early beginnings of the modern era is the Industrial Revolution. In this time, the machinery industry was born. It has paved way to the invention of various devices that have helped man. Today, this industry still plays a very big role when it comes to business. Machines mean nothing if they are not calibrated and efficient – this is where the Six Sigma Methodology and the Machine Industry marry their goals for the betterment of the business industry.
A machine is anything that is composed of one or more parts that will work to achieve a certain predetermined goal. These tools and devices are powered in order to work. The sources of power can vary ranging from mechanical, electrical, chemical, or thermal means. In order for a thing to be classified as a machine, human ingenuity must be the reason behind it, and not a natural occurrence. In the simplest terms, machines are devices that can modify the magnitude or direction of a force. However, this does not apply in the modern sense with the many things that machines can do today. Machines can be used to form other machines that usher further new innovations. They start a chain reaction that can fuel the world into the future.
The Six Sigma Methodology is a quality improvement process that helps companies ensure that their machines are calibrated correctly, efficient, and are doing what they are designed to do through the help of statistics. By collecting and analyzing data, an individual can determine if a machine is using fuel efficiently, and if it is doing the job it is intended to do accurately.
The birth of the machines has paved way to mechanization in the plants. By the birth of the steam engine, the Industrial Revolution had been born. The engine has led to the designing of many other machines that were then used in various industrial processes. It then led to the formation of various factories. These factories would need employees, and a lot of people from farms have been lured to work in these factories, which gave rise to urbanization and formation of various cities.
The role of machines in the industrial processes is very crucial. They allow automation of work. This means faster production and more accomplished work, which also happens to be the goals of the Six Sigma Process. It allowed for the mass production of various items. The sheer limit of human capacity cannot equal the speed of machines. Not only is speed important, but efficiency as well. Machines are more efficient in doing things in the longer run (as long as they work correctly). They give uniformity, which is a crucial requirement in mass production. A human being can give high quality work. However, the quality can change as a person will be affected by factors such as exhaustion.
When machines and humans work together for quality improvement, the sky is the limit for what can be achieved. Machinery has also allowed for various dangerous works to be done by metal instead of human beings. Machines are used in planting explosives in mining, for example. They can also be used to deal with high temperatures.
Machines are widely used in various fields and industries. They are used in manufacturing of various products. They are also used in fields of construction, agriculture, and mining. Today, many machines have even been designed to operate without humans. The field of robotics and automata has paved way to more sophisticated machines. Robots are now used in industries such as the automotive sector.
The machinery industry is a very dominant force that shaped the world today. With its help, the world is modernized and is continuing to advance into the future. In order to keep these machines advancing into the future, statistics-based quality improvement techniques such as the Six Sigma Methodology should be employed to ensure efficiency and accuracy.