alangbaker
Automotive
- Aug 21, 2008
- 8
Greetings,
I have a project which will require some elements connected by hinges with (I think) fairly large loads in relation to the size of hinges I can use. Basically, two elements in structural aluminum (something suitable for machining) will be connected 3 pairs of smaller elements hinged in pairs to each other and to the aluminum elements at either end.
I'm not sure of anything yet, but I wondered if anyone could help me with a couple of questions.
1. Given the different strengths of the materials involved, I'm assuming that I should proportion the "fingers" of the hinge such that the cross-section in the load-bearing area for each material is in inverse proportion to the strength of materials. i.e. If the aluminum parts are machined from aluminum with yield point 40,000 psi) and the steel parts are machined from an alloy with a 60,000 psi minimum yield point, then if I would make 60% of the shared space for the fingers of the hinge from aluminum and 40% from steel. Are there other factors that come into play here? How does the differing modulus of elasticity play into it?
2. Is it better for overall strength and stability of the joints to have more fingers, or fewer? From the standpoint of the structures design, it's probably better to make the first and last finger in the aluminum parts and have the steel fingers start on the inside of each, but... ...how many repetitions? We're talking about parts that are going to be joined over a total distance of perhaps 3" with a 1/4" hinge pin with 1/2" diameter fingers? The fewest fingers would be one Aluminum, one steel, one aluminum, but that makes the steel element quite narrow in the middle and I'd like to see the loads spread out more.
I've attached a quick and dirty snapshot of a basic SketchUp model of what I'm talking about.
Any thoughts you can offer would be very much appreciated.
I have a project which will require some elements connected by hinges with (I think) fairly large loads in relation to the size of hinges I can use. Basically, two elements in structural aluminum (something suitable for machining) will be connected 3 pairs of smaller elements hinged in pairs to each other and to the aluminum elements at either end.
I'm not sure of anything yet, but I wondered if anyone could help me with a couple of questions.
1. Given the different strengths of the materials involved, I'm assuming that I should proportion the "fingers" of the hinge such that the cross-section in the load-bearing area for each material is in inverse proportion to the strength of materials. i.e. If the aluminum parts are machined from aluminum with yield point 40,000 psi) and the steel parts are machined from an alloy with a 60,000 psi minimum yield point, then if I would make 60% of the shared space for the fingers of the hinge from aluminum and 40% from steel. Are there other factors that come into play here? How does the differing modulus of elasticity play into it?
2. Is it better for overall strength and stability of the joints to have more fingers, or fewer? From the standpoint of the structures design, it's probably better to make the first and last finger in the aluminum parts and have the steel fingers start on the inside of each, but... ...how many repetitions? We're talking about parts that are going to be joined over a total distance of perhaps 3" with a 1/4" hinge pin with 1/2" diameter fingers? The fewest fingers would be one Aluminum, one steel, one aluminum, but that makes the steel element quite narrow in the middle and I'd like to see the loads spread out more.
I've attached a quick and dirty snapshot of a basic SketchUp model of what I'm talking about.
Any thoughts you can offer would be very much appreciated.
