The following engineering report will explain the manufacturing and involvement of modern ski poles. He will also present the different parts and materials that make up ski poles and explain the objectives and principles of each part. Say no to plagiarism. Get a tailor-made essay on “Why Violent Video Games Should Not Be Banned”? Get an Original Essay Winter sports have adapted as sports grow and technology improves, so do the supports for winter athletes. Skis were not originally used with ski poles, but as the skill of the sport and recreational use increased, the need for improvement was evident. Ski poles give the athlete increased balance and propulsion and are used for alpine skiing, powder skiing, ski racing, and cross-country skiing. The poles provide additional support otherwise unobtainable with the hands. The tips of ski poles are the most important part of the pole and it is the part that penetrates the snow, it is sharp enough to dig into the snow to create friction which can be used to propel the user towards the 'front but are short enough to be removed easily and allow continuous movement. The tips are very useful for being able to propel yourself forward to increase speed, move when you are not on an incline, and be an anchor point when you are on an incline. Ski poles vary in length, shape, and material, primarily depending on price and skill level. Depending on the type of skiing the pole is used for, the type of pole required, some have larger baskets for better grip, others are lighter for more speed, and some are curved to maximize ratio resistance/power, regardless of that. they ultimately have a similar goal, that of helping the skier ski. The history of ski poles dates back to early 3623 BC and were originally intended to assist with balance, braking and turning. They were also used to help them hunt. They were made from bamboo and pine wood. The first metal ski pole was patented in 1933 and was intended to use a steel shaft. This was achieved by a man named John B. Dickson, but was later replaced by the lightweight aluminum model, designed by Edward L. Scott in 1959. The ski pole has progressed since then and the most technologically advanced material used is carbon fiber, relying on the lightness and strength of aluminum poles, but its price is high, so the average consumer generally chooses aluminum poles. The development of automated manufacturing processes has increased the rate of mass production and sale of poles. For example, sticks pass through rollers that apply pressure to precisely straighten them, this is done at a high rate and requires little human intervention, resulting in high precision and low costs. Ski poles should be made to last, just like the average skier buys. a pair and only replace them if they outgrow them or are looking for an upgrade. This means that ski pole manufacturers have to rely on the seller, because they will likely only buy one pair. That means high-quality rubbers for the handle, hardened aluminum for the shaft, and a durable carbide tip to prevent wear. Qualifications in mechanics, as well as electrical and electronic engineering are required for different parts of the assembly process. THE » -.