Jump to content

Recommended Posts

Posted

 

Hi guys I've noticed there are different types of allu- specifically for frames? How do you tell what is better? Higher the number? Or does the number have nothing to do with it?
Posted

Most alumimium made is alloyed with other metals to give it particular properties. There are standard descriptions - some are particularly suited to frames others not. I would say that aerospace type aluminium - 2024 would be good for frames?

Posted

Dunno. Here's what all the various types are composed of:

AlloySiFeCuMnMgCrZnVTiBiGaPbZrLimits??Al
eachtotal
10600.250.350.050.030.030.030.050.050.030.030.030.030.030.03
99.6 min
11000.95 Si+Fe0.05-0.200.05

0.10





0.050.1599.0 min
20140.50-1.20.73.9-5.00.40-1.20.20-0.80.100.25
0.15



0.050.15remainder
20240.500.503.8-4.90.30-0.91.2-1.80.100.25
0.15



0.050.15remainder
22190.20.305.8-6.80.20-0.400.02
0.100.05-0.150.02-0.10


0.10-0.250.050.15remainder
30030.60.70.05-0.201.0-1.5

0.10





0.050.15remainder
30040.300.70.251.0-1.50.8-1.3
0.25





0.050.15remainder
31020.400.70.100.05-0.40

0.30
0.10



0.050.15remainder
40434.5-6.00.800.300.050.05
0.10
0.20



0.050.15remainder
50520.250.400.100.102.2-2.80.15-0.350.10





0.050.15remainder
50830.400.400.100.40-1.04.0-4.90.05-0.250.25
0.15



0.050.15remainder
50860.400.500.100.20-0.73.5-4.50.05-0.250.25
0.15



0.050.15remainder
51540.250.400.100.103.10-3.900.15-0.350.20
0.20



0.050.15remainder
53560.250.400.100.104.50-5.500.05-0.200.10
0.06-0.20



0.050.15remainder
54540.250.400.100.50-1.02.4-3.00.05-0.200.25
0.20



0.050.15remainder
54560.250.400.100.50-1.04.7-5.50.05-0.200.25
0.20



0.050.15remainder
60050.6-0.90.350.100.100.40-0.60.100.10
0.10



0.050.15remainder
6005A?0.50-0.90.350.300.500.40-0.70.300.20
0.10



0.050.15remainder
60600.30-0.60.10-0.300.100.100.35-0.60.50.15
0.10



0.050.15remainder
60610.40-0.80.70.15-0.400.150.8-1.20.04-0.350.25
0.15



0.050.15remainder
60630.20-0.60.350.100.100.45-0.90.100.10
0.10



0.050.15remainder
60660.9-1.80.500.7-1.20.6-1.10.8-1.40.400.25
0.20



0.050.15remainder
60701.0-1.70.500.15-0.400.40-1.00.50-1.20.100.25
0.15



0.050.15remainder
60820.7-1.30.500.100.40-1.00.60-1.20.250.20
0.10



0.050.15remainder
61050.6-1.00.350.100.100.45-0.80.100.10
0.10



0.050.15remainder
61620.40-0.80.500.200.100.7-1.10.100.25
0.10



0.050.15remainder
62620.40-0.80.70.15-0.400.150.8-1.20.04-0.140.25
0.150.40-0.7
0.40-0.7
0.050.15remainder
63510.7-1.30.500.100.40-0.80.40-0.8
0.20
0.20



0.050.15remainder
64630.20-0.60.150.200.050.45-0.9
0.05





0.050.15remainder
70050.350.400.100.20-0.71.0-1.80.06-0.204.0-5.0
0.01-0.06


0.08-0.200.050.15remainder
70720.7 Si+Fe0.100.100.10
0.8-1.3





0.050.15remainder
70750.400.501.2-2.00.302.1-2.90.18-0.285.1-6.1
0.20



0.050.15remainder
71160.150.300.50-1.10.050.8-1.4
4.2-5.20.050.05
0.03

0.050.15remainder
71290.150.300.50-0.90.101.3-2.00.104.2-5.20.050.05
0.03

0.050.15remainder
71780.400.501.6-2.40.302.4-3.10.18-0.286.3-7.3
0.20



0.050.15remainder
?Manganese plus chromium must be between 0.12-0.50%.

??This column lists the limits that apply to all elements,
whether a table column exists for them or not, for which no other
limits are specified.

 

Posted

 

Yeah, I've never heard of 7046 either...

 

Um, scratch that, they seem to mainly use it for baseball bats, so, probably not the best for a bike...

TNT12009-05-11 04:45:09

Posted

The International Alloy Designation System is the most widely
accepted naming scheme for wrought alloys. Each alloy is given a
four-digit number, where the first digit indicates the major alloying
elements.


  • 1000 series are essentially pure aluminium with a minimum 99% aluminium content by weight and can be work hardened.
  • 2000 series are alloyed with copper, can be precipitation hardened to strengths comparable to steel. Formerly referred to as duralumin, they were once the most common aerospace alloys, but were susceptible to stress corrosion cracking and are increasingly replaced by 7000 series in new designs.
  • 3000 series are alloyed with manganese, and can be work-hardened.
  • 4000 series are alloyed with silicon. They are also known as silumin.
  • 5000 series are alloyed with magnesium, derive most of their
    strength from work hardening. It is suitable for cryogenic applications
    and low temperature work. However is susceptible to corrosion above 60
    degrees C .
  • 6000 series are alloyed with magnesium and silicon, are easy to
    machine, and can be precipitation-hardened, but not to the high
    strengths that 2000, and 7000 can reach.
  • 7000 series are alloyed with zinc, and can be precipitation hardened to the highest strengths of any aluminium alloy.
  • 8000 series is a category mainly used for lithium alloys.
More:
http://en.wikipedia.org/wiki/Aluminum_alloy



nathrix2009-05-11 04:55:19
Posted

I see most alu frames are the 6061 and 7005 series I think, but now what about scandium frames?  I don't see a number series there that includes scandium?  I am pretty sure scandium bars and frames etc. are not pure scandium.

Posted

It looks like scandium is a pretty exotic stuff. Very small percentages are alloyed with aluminium to give it better properties.

 

Good aluminium frame? Strength, resistance to fatigue and weldability?

 

Posted

 

I see most alu frames are the 6061 and 7005 series I think' date=' but now what about scandium frames?  I don't see a number series there that includes scandium?  I am pretty sure scandium bars and frames etc. are not pure scandium.

[/quote']

 

True, they are another aluminium alloy, with a scandium content, but for marketing purposes, they sell them under a Scandium alloy label. Usually they have very little scandium in them...

 

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
Settings My Forum Content My Followed Content Forum Settings Ad Messages My Ads My Favourites My Saved Alerts My Pay Deals Help Logout