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Portable XRF for analysis of chlorine in PVC


pipes

Overview

Chlorine's unique chemical properties allow for numerous and varied applications. The primary use for chlorine is in the construction industry for the manufacture of polyvinyl chloride (PVC) - a product with flexibility, durability, dependability, versatility, and resistance to leakage, flame, corrosion, and microbial growth. PVC is typically about 55% chlorine.

Unfortunately, one of the downsides of PVC is its potential to cause harmful environmental side effects. When PVC is burned, hydrochloric acid and dioxin can be created and released to the environment. Some believe that before it actually burns, decomposing PVC can cause the most immediate threat to humans. This is of particular concern in building fires where PVC, used in the wiring and plumbing inside of walls, can overheat and decompose at lower temperatures - before there is actual ignition.

The greatest long-term threat from PVC is when it is recycled at the end of its useful life. Due to the wide range of additives and formulations that go into these products, testing for PVC is necessary to ensure that dioxin and toxic metals are not emitted into the air during recycling incineration.

In addition to PVC being a health hazard, the corrosive nature of the hydrochloric acid generated can seriously damage recycling equipment - including the metal and masonry in incinerators.

PVC also can adversely affect the quality of other recycled plastics, such as Polyethylene Terephthalate (PET), which greatly decreases the value of the recycled product. Recycling facilities need to separate out unwanted PVC containers. The detection of chlorine, which is typically in the 50+% range in PVC, is an ideal way to separate out the PVC from the other plastics.

Key Features of the Handheld XRF

The handheld, point-and-shoot XRF analyzer provides on-the-spot quality data about chlorine and facilitates high-throughput testing of materials. It identifies PVC and quantifies Cl content in as little as 3 seconds. In a 3-second sorting test, the detection limit is about 1% Cl.

This X-ray tube-based handheld XRF system replaces the need for multiple isotopes used in older systems and eliminates their burdensome radioactive source regulatory issues - particularly for interstate and international travel. The analyzer also quantifies Br, Sb, Ba, Zn and toxic metals such as Pb, Cd, Hg, Cr and As in seconds.

Delta Handheld XRF testing consumer product

Performance Parameters
Typical Sorting Time PVC (sec) 2-3
Cl Detection Limit (%) 1
Analysis Testing Time (sec) 30
CI Detection Limit (%) 0.35

On-the-Spot Chlorine (Cl) Analysis

Portable XRF technology offers simple and immediately accurate chlorine test results, non-destructively, at the point of use. Factory calibrations for Cl, Br, Sb, and 20+ metals provide concentrations in ppm or percent values. The user may also add new elements or create custom calibration curves at any time.

A typical Cl calibration curve in Figure 1 shows that the quadratic fit of data for Cl in plastic has an excellent R2 value of 0.9967. PVC is typically sorted with a 2-3 second test. A 5-second Fast Sorting LOD for Cl in PVC is about 1%.

For some applications, operators want to see lower level Cl concentrations by performing longer tests. The estimated limit of detection for Cl in PVC is 0.35% for a 30-second measurement (see Figure 2).

A portable XRF analyzer is an inexpensive, easy to use, preventative maintenance tool for in-situ analysis of chlorine in PVC. It also analyzes alloys and environmental samples, plus is used for numerous other materials analysis applications.

The portable XRF system is a proactive trouble-shooting tool to help indicate potential process and equipment problems before failures occur. It is non-destructive and can also be used as a cost-effective screening tool to save time and money by helping engineers determine which materials require further investigation - including thorough lab analysis.

Summary

Significant advancements have taken portable XRF technology to the next level for elemental analysis. Whether for fast sorting by non-technical operators, or customized analytical analysis in the lab, the portable XRF analyzer is affordable, easy to use, reliable, and overall cost effective.

testing data

This handheld portable tube-based analyzer incorporates state-of-the-art components including a battery operated miniature X-ray tube, a high-resolution silicon pin detector, high speed data acquisition circuitry, and an internal miniature PC for calculations, results, data storage and operator interface. The single "tube" design offers true simultaneous analysis of metals. It replaces the need for multiple isotopes used in other systems and eliminates their burdensome radioactive source regulatory issues, particularly for interstate travel.

Olympus IMS

应用所使用的产品
用于废料分拣的DELTA手持式XRF分析仪可在1到2秒钟内对大多数合金牌号和纯金属进行可靠的辨别。分析仪的机身设计坚固耐用,可在恶劣的环境中正常操作。可在数秒钟之内对各种铁性和非铁性材料进行快速、可靠的合金分拣与分析。
用于环境检测的DELTA手持式XRF分析仪在几秒钟之内可检测出RCRA(《资源保护及恢复法案》)中所规定的危险性高含量元素、需优先考虑的污染物质及危险金属。手持式XRF用于根据EPA 6200和其它SOP,对土壤和沉淀物进行检测分析,根据NIOSH或OSHA方式进行过滤:筛检表面并测量尘扫中的铅、镉、铬、砷、汞及其它元素。
用于保证产品符合消费者安全和RoHS指令的DELTA手持式XRF分析仪可以随时随地对大量的消费和电子产品进行检测。这款分析仪可以对铅(Pb)、镉(Cd)、汞(Hg)、溴(Br)及其它元素进行简单,快速,无损的合规筛检。可用于完成在ASTM(美国材料和试验协会)的方法F2617-08、HR4040、CPSC、CPSIA等中描述的应用。
DELTA Professional分析仪将硅漂移探测器(SDD)和一个4W优化X射线管结合在一起使用,可在检测速度、检出限及可检元素的范围方面提供非常高的性能。这款分析仪可以分析合金和矿石中镁(Mg)及原子数更高的元素。奥林巴斯所生产的DELTA Professional分析仪是一款性价比很高的手持式XRF分析仪。
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