UOP 905-20 PDF | Request Standard

UOP 905-20

Platinum Agglomeration by X-Ray Diffraction

Standard by UOP

Available Formats:

  • Availability: Immediate Download
  • Language: English
  • License Type: Single User
  • Updates: Not Included
  • Availability: Request Quote
  • Language: English
  • License Type: Enterprise / Multi User
  • Updates: Included

About This Item

Legal Notices*

UOP 905-20 is a technical laboratory method for Platinum Agglomeration by X-Ray Diffraction, intended to help professionals evaluate how platinum behaves in a material or catalyst-related sample. As a UOP test method, it supports consistent analytical review where platinum distribution or structural changes may affect performance, product quality, or process interpretation. The method is especially relevant when laboratories need a reliable reference for assessing agglomeration behavior in petroleum, refining, or chemical work. For teams comparing samples or documenting analytical findings, UOP 905-20 provides a focused framework tied to a specific and practical materials characterization need.

Overview of UOP 905-20

This UOP test method centers on x-ray diffraction as the analytical approach for examining platinum agglomeration. In practice, that makes it a measurement-oriented method used to support structural evaluation rather than broad compositional screening. Buyers typically look to this type of document when they need a clear laboratory reference for assessing platinum-related changes in catalysts, process materials, or other technical samples. UOP 905-20 is suited to analytical settings where consistency, method alignment, and defensible documentation matter to quality and review teams.

Laboratory use of UOP 905-20

UOP 905-20 may be used in refinery laboratories, catalyst testing groups, and analytical chemistry environments where platinum agglomeration needs to be checked using x-ray diffraction. It is relevant for laboratory analysts, technical reviewers, process engineers, and quality specialists who evaluate sample condition or compare results across batches. In day-to-day work, the method can support structured sample review, internal reporting, and technical decisions tied to catalyst performance or materials stability. It fits workflows where precise characterization is needed for petroleum, petrochemical, or related industrial samples.

Why UOP 905-20 matters in day-to-day work

For operational teams, UOP 905-20 helps bring consistency to how platinum agglomeration is assessed and documented. That matters when comparing samples, reviewing quality trends, or supporting a technical decision with a standardized analytical method. Refinery QA/QC teams and laboratory staff often need methods that reduce ambiguity in interpretation, especially when platinum behavior may influence performance or reliability. UOP 905-20 supports that need by providing a clear test-method reference for repeatable laboratory use, internal communication, and method-based documentation.

  • X-ray diffraction-based evaluation
  • Platinum agglomeration focus
  • Catalyst and materials review
  • Refinery and laboratory use
  • QA/QC and technical documentation
SKU: 8703b3fe04d7

  • Publisher: UOP

Online Standart App

Need This Standard?

Need This Standard?

Summarize with AI

ChatGPT Perplexity Google AI Claude Grok

Online Standart Disclaimer

OnlineStandart.com is an authorized reseller of international standards through partnerships with authorized distributors. We do not own the copyrights or trademarks of the standards we sell, including but not limited to those of API, ASHRAE, BSI, SAE, ASTM, IEEE, IEC, ASME, ISO, and others.

All product names, logos, and brands are property of their respective owners. All company, product, and service names used on this website are for identification purposes only. Use of these names, trademarks, and brands does not imply endorsement.

The content provided on this website is for informational purposes only and is intended to promote our reselling services. OnlineStandart.com is not affiliated with or endorsed by any of the standard organizations unless explicitly stated.