Question 1 A helical compression spring is made of hard-drawn spring steel wire 2 mm in diameter and has an outside diameter of 22 mm. The ends are plain and ground, and there are 8, total coils. 1. The spring is wound to a free length, which is the largest possible with a solid-safe property. Find this free length. 2. What is the pitch of this spring? 3. What force is needed to compress the spring to its solid length? 4. Estimate the spring rate. 5. Will the spring buckle in service?

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Sut =
MPa
Ssy =
MPa
D=OD-d =
mm
C=
mm
Kg =
Na =
L; =
Use n; = 1.2 for solid safe property
Fs =
k =
N/m
Ys =
mm
(Loler =
mm
(Loler/ Lo =
Transcribed Image Text:Sut = MPa Ssy = MPa D=OD-d = mm C= mm Kg = Na = L; = Use n; = 1.2 for solid safe property Fs = k = N/m Ys = mm (Loler = mm (Loler/ Lo =
Question 1
A helical compression spring is made of hard-drawn spring steel wire 2 mm in diameter and has an outside diameter of
22 mm. The ends are plain and ground, and there are 8, total coils.
1. The spring is wound to a free length, which is the largest possible with a solid-safe property. Find this free length.
2. What is the pitch of this spring?
3. What force is needed to compress the spring to its solid length?
4. Estimate the spring rate.
5. Will the spring buckle in service?
Transcribed Image Text:Question 1 A helical compression spring is made of hard-drawn spring steel wire 2 mm in diameter and has an outside diameter of 22 mm. The ends are plain and ground, and there are 8, total coils. 1. The spring is wound to a free length, which is the largest possible with a solid-safe property. Find this free length. 2. What is the pitch of this spring? 3. What force is needed to compress the spring to its solid length? 4. Estimate the spring rate. 5. Will the spring buckle in service?
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