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Fine ceramics (advanced ceramics, advanced techenical ceramics)-Method of measurement for assessing the power generation characteristics of piezoelectric device for self-sustaining power source |
|
1 |
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Japan Fine Ceramics Association |
a |
| |
Fine ceramics (advanced ceramics, advanced technical ceramics) --Test method for shear strength of continuous-fiber-reinforced ceramics matrix composites at room temperateure |
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1 |
|
Japan Fine Ceramics Association |
a |
| |
Iron and steel - Determination of antimony - Part 1:Rhodamine B spectrophotometric method after extraction of chloride |
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1 |
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The Japan Iron And Steel Federation |
a |
| |
Iron and steel - Determination of antimony - Part 2:Spectrophotometric method after extraction of brilliant green complex |
|
1 |
|
The Japan Iron And Steel Federation |
a |
| |
Removal of corrosion products from corrosion test specimens |
|
1 |
|
Japan Stainless Steel Association |
a |
| |
Penetration evaluation of steel plates |
|
1 |
|
High Pressure Institute Of Japan |
a |
| |
Measurement method for thermal conductivity of thermal barrier coatings at elevated temperature |
|
1 |
|
Osaka Science & Technology Center |
a |
| |
Testing Method of Axiual Force Fatigue of Metals
|
|
1 |
|
The Society Of Materials Science, Japan |
a |
| |
Iron ores-Method for determination of silicon-Part 1: Gravimetric method as silicon dioxide |
|
4 |
|
※The Japan Iron And Steel Federation |
a |
| |
Iron ores-Method for determination of silicon-Part 2: Silicomolybdate blue spectrophotometric method |
|
4 |
|
※The Japan Iron And Steel Federation |
a |
| |
Iron ores-Determination of aluminium-Part 1: Ethylenediamine tetraacetic acid back titration by zinc |
|
4 |
|
※The Japan Iron And Steel Federation |
a |
| |
Iron ores-Determination of aluminium-Part 2:Flame atomic absorption spectrometric method |
|
4 |
|
※The Japan Iron And Steel Federation |
a |
| G1212-1 |
Iron and steel-Determination of silicon-Part 1: Gravimetric method as silicon dioxide
|
77.080.01 |
5 |
ISO 439 |
※The Japan Iron And Steel Federation |
a |
| G1212-2 |
Iron and steel-Determination of silicon-Part 2: Ammonium iron (II) sulfate reduced molybdosilicate spectrophotometric method
|
77.080.01 |
5 |
|
※The Japan Iron And Steel Federation |
a |
| G1212-3 |
Iron and steel-Determination of silicon-Part 3: Ascorbic acid reduced molybdosilicate spectrophotometric method
|
77.080.01 |
5 |
ISO 4829-2,ISO 4829-1 |
※The Japan Iron And Steel Federation |
a |
| G1229-1 |
Iron and steel - Determination of lead - Part 1: Lead molybdate gravimetric method after precipitated as lead sulfide |
77.080.20 |
4 |
|
※The Japan Iron And Steel Federation |
a |
| G1229-2 |
Iron and steel - Determination of lead - Part 2: Spectrophotometric method after solvent extraction of iron and extraction of diphenylthiocarbazone complex |
77.080.20 |
4 |
|
※The Japan Iron And Steel Federation |
a |
| H0616 |
Test method for low substitutional atomic carbon content of single crystal silicon by Fourier transform infrared absorption spectroscopy at room temperature |
29.045;73.080;77.120.99 |
5 |
|
Japan Society Of Newer Metals |
a |
| H0617 |
Test method for determination of low carbon impurity concentration in silicon single crystals by photoluminescence spectroscopy |
29.045;73.080;77.120.99 |
5 |
|
Japan Society Of Newer Metals |
a |
| H1633 |
Titanium and titanium alloy-ICP atomic emission spectrometric method-Determination of various elements |
71.040.50;77.120.50 |
5 |
|
The Japan Titanium Society |
a |
| M8120 |
Ores-General rules for chemical analysis |
73.060.01 |
5 |
|
Japan Mining Industry Association |
a |
| R2210 |
Test methods for thermal expansion under load of refractory products |
81.080 |
2 |
|
The Technical Association Of Refractories, Japan |
a |
