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Chemical Analysis Testing Services

ASTM testing services are the standardized testing techniques to ascertain the properties and chemical makeup of metals, alloys, polymers, ceramics, and other technical materials.

Material Identification: Verifying that the composition actually satisfies requirements.

Finding contaminants, undesired trace elements, or dangerous substances is known as contaminant detection. Verifying quality involves confirming adherence to global standards and client specifications.

Performance Prediction: Associating chemical composition with durability, mechanical, and physical characteristics. This confirms that materials will continue to be dependable in crucial applications in addition to performing as anticipated. 

What Makes ASTM Testing Services for Chemical Analysis Important?

ASTM testing of chemicals yields important insights that have a direct impact on business outcomes, safety, and quality. The important aspects can be used to understand its significance:

Safety: Prevents vital structures (such as pipelines, bridges, and airplane engines) from failing too soon.

Standardization: Consistency in raw ingredients and final products is confirmed by quality control.

Optimization: Performance optimization lowers the risk of failures and recalls by assisting engineers in customizing materials to exact application requirements.

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Chemical Testing Lab

How Do You Conduct Chemical Analysis Testing?

ASTM chemical analysis uses proven, standardized procedures that are frequently supported by cutting-edge equipment:

Spectroscopic techniques include Inductively Coupled Plasma (ICP), Atomic Absorption Spectroscopy (AAS), and Optical Emission Spectroscopy (OES).

Chromatographic methods include High-Performance Liquid Chromatography (HPLC) and Gas Chromatography (GC) for organics and polymers.

Wet Chemical Techniques: When appropriate, gravimetric analyses and classical titrations are used.

Energy-dispersive X-ray spectroscopy (EDS) in conjunction with scanning electron microscopy (SEM) for microscopic and structural analysis.

Electrochemical Methods: Surface chemistry evaluation and corrosion susceptibility analysis. Every technique is standardized to ASTM guidelines, and international recognition and reproducibility are guaranteed.

List of Common Tests Under ASTM Testing Services for Chemical Analysis

ASTM D543: Plastic materials’ resistance to chemical reagents is assessed by ASTM D543. To verify whether plastics are suitable for chemical exposure in real-world settings, the testing entails submerging them in chemicals under carefully monitored conditions and tracking changes in weight, size, appearance, and mechanical qualities.

ASTM E34:  This standard addresses chemical analysis techniques for metals and alloys. It contains established methods for precisely figuring out elemental composition, which is essential for quality control.

ASTM C146: This standard offers test procedures for refractory chemical analysis. It outlines methods for locating and measuring silica, alumina, and other components in refractory materials, which are crucial for the performance and consistency of the final product.

ASTM D1239: This test describes how to test plastics for water extraction. In order to evaluate product safety in applications such as food packaging or pipes, the test measures the quantity of water-soluble substances that are leached from plastic materials.

ASTM E1232: This test provides guidelines for performing interlaboratory studies to assess the accuracy of quantitative chemical analysis techniques while guaranteeing the reliability and statistical validity of test results from various labs.

Service NameRemarks
Chemical Analysis Lab

Conclusion

Chemical analysis and ASTM testing services are more than just technical evaluations, they are crucial instruments for guaranteeing performance, safety, and compliance. ASTM testing helps businesses lower risks, improve the reputation of their products, and spur innovation by providing accurate assessments of material chemistry. Research teams and product developers may maintain their competitiveness, compliance, and credibility in international markets by choosing the correct testing partner.

Why Choose Infinita Lab for Chemical Analysis ASTM Services

Infinita Lab offers comprehensive chemical analysis ASTM  testing services, a comprehensive lab network, project management, confidentiality, and rapid turnaround. Trust Infinita Lab for your material testing needs, faster test results, cost savings, and reduced administrative workload.

Looking for a trusted partner to achieve your research goals? Schedule a meeting with us, send us a request, or call us at (888) 878-3090  to learn more about our services and how we can support you. Request a Quote.

Essential FAQs on Chemical Analysis Materials Testing Services

What is ASTM chemical analysis?

ASTM chemical analysis involves a series of standardized test methods to determine the composition and purity of various materials. These tests are critical for ensuring that materials meet industry quality, reliability, and safety standards. The methods include optical emission spectrometry, which analyzes metals for elemental composition, ensuring that materials adhere to specified chemical compositions.

What materials can be tested using ASTM chemical analysis?

A wide range of materials can be tested using ASTM chemical analysis, including metals, alloys, polymers, ceramics, and composites. Each material type has specific ASTM standards that outline the appropriate test methods for accurate analysis. For instance, ASTM E415 is used for the chemical analysis of carbon and low-alloy steel by optical emission spectrometry, while other standards apply to different materials and their unique properties.

Why is ASTM chemical analysis important?

ASTM chemical analysis is essential because it ensures that materials used in manufacturing and other industries meet stringent regulatory and quality standards. By accurately determining the elemental composition and impurities in materials, companies can ensure product performance, safety, and compliance with industry-specific regulations, thus avoiding potential failures or safety issues in end-use applications.


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ASTM D7637 Determination of Glycerin Assay by Titration ASTM E1784-08 Total Peroxides in Acrylonitrile ASTM E1746-17a Sampling and Analysis of Liquid Chlorine for Gaseous Impurities ASTM E1659-12 Method for Coating Mass and Chemical Analysis of Zinc-Nickel Alloy Electrolytically Coated on Steel Sheet ASTM D6474-12 Molecular Weight Distribution and Averages of Polyolefins ASTM D5155-19 Determination of the Isocyanate Content of Aromatic Isocyanates ASTM D4890-18 Determination of Gardner and APHA Color of Polyols ASTM D4878 Determination of Viscosity of Polyols ASTM D4877 Determination of APHA Color in Isocyanates ASTM D4671 Determination of Unsaturation of Polyols ASTM D4875 Polymerized Ethylene Oxide Content of Polyether Polyols ASTM D4672 Determination of Water Content of Polyols ASTM E824–10 Transfer of Calibration from Reference to Field Radiometers ASTM E816-05 Calibration of Pyrheliometers by Comparison to Reference Pyrheliometers ASTM E815−11 Determination of Calcium Fluoride in Fluorspar by Complexometric Titrimetry ASTM E806−08 Carbon Tetrachloride and Chloroform in Liquid Chlorine by Direct Injection (Gas Chromatographic Procedure) ASTM E579-04 Limit of Detection of Fluorescence of Quinine Sulfate in Solution ASTM E534 – 13 Chemical Analysis of Sodium Chloride ASTM E537 – 12 Thermal Stability of Chemicals by Differential Scanning Calorimetry ASTM E508 – 13 Calcium and Magnesium determination in Iron Ores by Flame Atomic Absorption Spectrometry ASTM E539 – 11 Analysis of Titanium Alloys by X-Ray Fluorescence Spectrometry ASTM E545-14 Image Quality in Neutron by Radiographic Examination ASTM E477 – 13 Laboratory Measurements of Acoustical and Airflow Performance of Duct Liner Materials and Prefabricated Silencers ASTM E475 – 10 Method for Assay of Di-tert-Butyl Peroxide Using Gas Chromatography ASTM E465 – 11 Determination of Manganese (IV) in Manganese Ores by Redox Titrimetry ASTM D6975 – 04 test method for Cummins M11 Exhaust Gas Recirculation Test (EGR) ASTM D7030-04 Short-Term Creep Performance of Corrugated Fibreboard Containers Under Constant Load ASTM 6906-12a Determination of titanium treatment weight on metal substrates ASTM D6903-07 Methods for Determination of Organic Biocide Release Rate from Antifouling Coatings in Substitute Ocean Water ASTM D6875-12 Test Method for Solidification Point of Industrial Organic Chemicals by Thermistor ASTM  D6869-03 Test Method for Coulometric and Volumetric Determination of Moisture in Plastics Using the Karl Fischer Reaction (the Reaction of Iodine with Water) ASTM D6866-12 Biobased Content Determination of Solid, Liquid, and Gaseous Samples Using Radiocarbon Analysis ASTM D6437 Alkalinity in Low-Alkalinity Polyols (Determination of CPR Values of Polyols) ASTM D6099-18 Determination of Acidity in Moderate to High Acidity Aromatic Isocyanates ASTM D5672 Testing Flexible Cellular Materials Measurement of Indentation Force Deflection ASTM D5629-16 Determination of Acidity in Low-Acidity Aromatic Isocyanates and polyurethane ASTM D5523-21 Acidity by Argentometric Determination of Hydrolyzable Chlorine in Aromatic Isocyanates ASTM D4889-21 Determination of Viscosity of Crude or Modified Isocyanates ASTM E363-09 Chemical Analysis of Chromium and Ferrochromium ASTM E359-10: Analysis of Soda Ash Sodium Carbonate ASTM E354-93 Chemical Analysis Iron, Nickel, and Cobalt Alloys ASTM E353-93 Chemical Analysis of Stainless, Heat Resisting, Maraging Steel and Other Similar Alloys ASTM E342-11 Test Method for Determination of Chromium Oxide in Chrome Ores by Permanganate Titrimetry ASTM E352-13 Chemical Analysis of Tool Steels ASTM E351-13 Chemical Analysis of Cast Iron ASTM E350-12 Chemical Analysis of Carbon Steel, Low-Alloy Steel, Silicon Electrical Steel, Ingot Iron, and Wrought Iron ASTM E346 Analysis of Methanol ASTM E299-08 Test Method for Trace Amounts of Peroxides in Organic Solvents ASTM E298-08 Standard Test Methods for Assay of Organic Peroxides ASTM E258-07 Method Total Nitrogen in Organic Materials by Modified Kjeldahl Method ASTM E256-09 Method for Chlorine in Organic Compounds by Sodium Peroxide Bomb Ignition ASTM D6385-99 Test for Determining Acid-Extractable Content in Activated Carbon by Ashing ASTM D6252-98 Test for Peel Adhesion of Pressure-Sensitive Label Stocks at a 90° Angle ASTM D6295-98 Test for Dispensability of Light–Duty Pressure–Sensitive Film Tape ASTM D6284-09 Effects of Chlorine Compounds on rubber ASTM D6267-13 Test for Apparent Viscosity of Hydrocarbon Resins at Elevated Temperatures ASTM D6248-98 Test for Vinyl and Trans Unsaturation in Polyethylene by Infrared Spectrophotometry ASTM D6238-13 Test for Total Oxygen Demand in Water ASTM D6266-00 Test for Determining the Amount of Volatile Organic Compound (VOC) Released From Waterborne Automotive Coatings and Available for Removal in a VOC Control Device ASTM D6209-13 Test to determine Gaseous and Particulate Polycyclic Aromatic Hydrocarbons in Ambient Air. ASTM D7773 Determination of Volatile Inorganic Acids ASTM D6174 Inorganic Sulfate in Surfactants by Potentiometric Lead Titration ASTM D6173 Various Anionic Surfactant Actives by Potentiometric Titration ASTM E224 Analysis of Hydrochloric Acid ASTM E202 Test Method for Analysis of Ethylene Glycols and Propylene Glycols ASTM E223 Analysis of Sulfuric Acid ASTM E222 Determination of Hydroxyl Groups ASTM D7773-12 Determination of Volatile Inorganic Acids Melting Points and the Melting Range of Organic Chemicals ASTM E324

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