faust9 said:Quick question: Why does the strenght to wieght ratio increase for die cast parts with decreasing wall thickness?
My view is that the weight decreases with nominal change in strength; however, a classmate of mine disagrees. Any thoughts?
Strength/weight ratio, also known as strength-to-weight ratio, is the measure of an object's strength in relation to its weight. It is calculated by dividing the maximum amount of force an object can withstand by its weight.
Strength/weight ratio is important because it allows us to compare the strength of different objects, regardless of their size or weight. It is particularly important in fields such as engineering and sports, where strength and weight are critical factors.
Strength/weight ratio is calculated by dividing the maximum force an object can withstand by its weight. The resulting value is usually expressed in units of force per unit of weight, such as newtons per kilogram.
In most cases, a higher strength/weight ratio is desirable as it means the object can withstand more force per unit of weight. However, it is important to consider other factors such as cost and practicality when determining the optimal strength/weight ratio for a particular application.
There are several ways to improve an object's strength/weight ratio, such as using lighter, stronger materials, optimizing the design for maximum strength, and incorporating structural reinforcements. Advances in technology and materials science continue to push the limits of strength-to-weight ratios in various industries.