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CS600高精度碳硫测定仪

简要描述:简单说明:CS600提供了一系列先进的解决方案检测碳和硫。当今的燃烧和红外相结合的检测技术使您能更准确、精确、使用方便灵活的剖析各种类型的金属和无机材料。

  • 产品型号:CS600
  • 厂商性质:生产厂家
  • 更新时间:2023-11-19
  • 访  问  量:1504
详情介绍

详细说明:

CS600提供了一系列先进的解决方案检测碳和硫。当今的燃烧和红外相结合的检测技术使您能更准确、精确、使用方便灵活的剖析各种类型的金属和无机材料。

Carbon and Sulfur in Steel, Nickel-Base, and Cobalt-Base Alloys
 
Instrument
CS600-Series
 
Sampling and Sample Preparation
Surface contamination on the sample can cause significant errors in the analytical data; therefore, care must be taken to ensure a clean, representative sample is analyzed. Solid
samples should be abraded with a clean file, rinsed in acetone and dried with warm air prior to analysis. Samples that cannot be abraded due to irregular shapes should be rinsed in a
suitable solvent such as acetone, and dried with warm air. Care
must be taken to remove all traces of the solvent. If a sample is porous, refrain from using solvents,
as it will be difficult to remove all traces of the solvent by drying. Refer to ASTM E1806 for additional sampling and sample preparation information.
 
Accessories
528-018 or 528-018HP Ceramic Crucibles (preheated)*; LECOCEL II (501-008) or
LECOCEL II HP (502-173) accelerator.
 
*Ceramic crucibles are baked in a muffle or tube furnace (LECO TF-10) at 1250oC for a minimum of
15 minutes, or at 1000oC for 40 minutes. The crucibles are removed from the furnace, allowed to cool for

 
 
 
 
1 to 2 minutes, and are transferred to a desiccator for storage. If the crucibles are not used within four hours, they should be re-baked.

 
Calibration
There are several suitable calibration samples available from LECO. Likewise, NIST, JK, JSS, and BCS are certified bodies that have a variety of certified reference materials (SRM/CRM) available as well. It is important that both high- and low-carbon ranges are calibrated. Single or multipoint calibration curves
can be utilized. Refer to the operator's instruction manual for details.
 
Method Parameters
Purge Time (seconds):
1**
 
Delay Time (seconds):
8**
 
Furnace Low Power (%):
100
 
Furnace High Power (%):
100
 
Furnace Ramp Rate:
0
 
 
 
Carbon
 
Sulfur
Minimum Timeout (seconds):
40
40
Comparator Level:
1.00
1.00
Significant Digits:
4 or 5
4 or 5
Integration Delay:
0
0
 
 


 

**For optimum analytical performance on samples with low carbon and
sulfur content 0.05%), a purge time of 10 seconds and a delay time of
20 seconds is recommended.

 
 
CS600


 

Procedure
1.   Prepare instrument for operation as outlined in the operator's instruction manual.
2.   Determine blank.
a.     Enter 1.0000 g weight into weight stack. b.      Add ~1.5 g of accelerator to crucible.
c.      Place the crucible on the furnace pedestal (or appropriate autoloader position if so equipped), and analyze.
d.     Repeat steps 2a through 2c a minimum of five times.
e.     Enter blank following procedure outlined in the operator's instruction manual.
3.   Calibrate.
a.     Weigh ~1.0 g calibration sample into crucible and enter weight into weight stack.
b.     Add ~1.5 g of accelerator on top of sample.
c.      Place the crucible on the furnace pedestal (or appropriate autoloader position if so equipped), and analyze.
d.     Repeat steps 3a through 3c a minimum of five times for each calibration sample intended for calibration.
e.     Calibrate using the procedure outlined in the operator's instruction manual.
4.   Analyze Samples.
a.     Weigh ~1.0 g sample into crucible and enter weight into weight stack.
b.     Add ~1.5 g of accelerator on top of sample.
c.      Place crucible on furnace pedestal (or appropriate autoloader position if so equipped), and analyze.
 
Note:   Some "solid" samples, notably nickel and/or cobalt-base alloys, are difficult to combust and may require additional accelerator. Likewise, reducing the sample to small chunks, chips, or pieces will facilitate combustion. For additional information on Carbon and Sulfur Determination using an Induction Furnace IR detection instrument, request LECO's Application Tips CD (209-050-055).
 
Typical Results

Sample
Weight (g)
C %
S %
Sample
Weight (g)
C %
S %
LECO
1.0
0.605
0.0176
LECO
1.0
0.00089
0.00062
501-505
 
0.605
0.0172
502-348
 
0.00089
0.00067
Steel Ring
 
0.605
0.0169
Low C and S
 
0.00094
0.00068
0.607 % C
 
0.607
0.0171
Steel Pin
 
0.00095
0.00060
0.0172% S
 
0.607
0.0174
0.0009 % C
 
0.00085
0.00064
 
 
0.605
0.0176
0.0007 % S
 
0.00085
0.00061
 
 
0.606
0.0178
 
 
0.00090
0.00062
 
 
0.604
0.0173
 
 
0.00090
0.00060
 
 
0.606
0.0173
 
 
0.00090
0.00065
 
 
0.605
0.0168
 
 
0.00089
0.00055
 
X =
0.606
0.0173
 
X =
0.00090
0.00062
 
s =
0.001
0.0003
 
s =
0.00003
0.00004
 
LECO
 
1.0
 
0.0375
 
0.0223
 
LECO
 
1.0
 
0.0414
 
0.0025
501-501
 
0.0380
0.0221
501-933
 
0.0414
0.0027
Steel Ring
 
0.0375
0.0222
Ni-Base Alloy
 
0.0413
0.0027
0.0377 % C
 
0.0377
0.0222
Chip Sample
 
0.0414
0.0028
0.0220 % S
 
0.0376
0.0223
0.042 % C
 
0.0415
0.0027
 
 
0.0376
0.0222
0.003 % S
 
0.0413
0.0028
 
 
0.0373
0.0221
 
 
0.0414
0.0028
 
 
0.0376
0.0222
 
 
0.0415
0.0028
 
 
0.0377
0.0223
 
 
0.0412
0.0027
 
 
0.0377
0.0222
 
 
0.0414
0.0029
 
X =
0.0376
0.0222
 
X =
0.0414
0.0027
 
s =
0.0002
0.0001
 
s =
0.0001
0.0001


 

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