-
E-mail
guanshikeji@guanshikeji.com
-
Phone
19170336680
-
Address
3-4/F, Building 31, No. 5 Chaoyang 2nd Road, Chaoyang Industrial Park, Xinzhou District, Shangrao City, Jiangxi Province
Product Categories
Jiangxi Guanshi Technology Co., Ltd
Small petroleum logging analyzer desktop X-ray diffractometer
NegotiableUpdate on 01/21
- Model
- Nature of the Manufacturer
- Producers
- Product Category
- Place of Origin
Overview
Small petroleum logging analyzer desktop X-ray diffractometer, application description: petroleum core logging, chemical, pharmaceutical, environmental soil, criminal investigation, archaeology, customs inspection, material research and other phase qualitative and quantitative analysis, lattice constant analysis, stress analysis.
Product Details
Product Introduction
Small petroleum logging analyzer desktop X-ray diffractometerXRD-BTXIII
Product Name: Small Petroleum Logging Analyzer Desktop X-ray Diffraction Instrument
Product Model: BTXIII
Application description: Petroleum core logging, chemical, pharmaceutical, environmental soil, criminal investigation, archaeology, customs inspection, material research and other qualitative and quantitative analysis of phases, lattice constant analysis, stress analysis
Brand: Olympus
Origin: USA
Typical users: laboratories, pharmaceuticals, universities, research institutes
Product Introduction:
One Introduction to XRD-BTXIII
XRD-BTXIII is a small desktop X-ray diffraction (XRD) and X-ray fluorescence (XRF) analyzer developed and produced by Olympus Corporation in the United States. It changes the basic structure of traditional large-scale desktop XRD and has technical and usage characteristics:
2、 Characteristics of XRD-BTXIII
1) Portable: The total weight of the machine is 12.5kg, with an all-in-one design and no mechanical moving parts.
2) Integration: XRD and XRF technologies are integrated, allowing for simultaneous XRD and XRF analysis of samples, providing information on material composition, phase, and structure.
3) Simplicity: including the ease of instrument operation and sample preparation. One click button design for instrument operation, no need for calibration, automatic detection, no need to pay extra attention to and be careful with high-pressure systems and water circulation cooling systems (the instrument does not have additional high-pressure and water circulation cooling systems); Sample preparation does not require slicing, pressing, scraping, etc., only three steps of crushing, filtering, and sample loading, and the entire process takes only 3 minutes.
4) Wireless transmission: The instrument automatically generates a local area network and connects wirelessly with a laptop through WIFI, enabling remote control and data transmission. It can also be connected via a wired data cable.
5) Good environmental adaptability: The instrument is vibration resistant.
6) Low maintenance cost: Low power X-ray tube can extend the power of the tube (normal use for 10 years), without the need for a water circulation cooling system, saving energy.
3、 XRD-BTXIII Function and Application
XRD-BTXIII is widely used in geological and mineral resources, petroleum core logging, chemical industry, cement, medicine, environmental soil, criminal investigation, archaeology, customs inspection, material research, etc. We can provide fast qualitative and quantitative analysis of phases, lattice constant analysis, stress analysis, and XRF qualitative analysis.
X-ray diffraction spectrum of lithium battery cathode material LiCoO2 obtained using XRD-BTXIII (as shown below)
Use XRD-BTXIII to perform mineral composition analysis and fit spectra on soil samples (as shown in the figure below)
Product Features:
Yijingtong small desktop X-ray diffractometer petroleum logging analyzerAdvantages and Characteristics
Convenient sample preparation: Traditional desktop XRD instruments generally require testing personnel to perform a large amount of sample collection and preparation work, as large quantities of samples must be ground into powder and carefully rolled into small spherical shapes. If the sample is ground too finely or the compaction force is too strong, it may cause sample preparation effects, such as preferential orientation issues. However, Olympus' XRD analyzer is different in that it only requires 15 milligrams of sample to obtain high-quality detection results, and the testing personnel can easily prepare samples using the sample kit provided with the instrument.
Simultaneous measurement: Traditional desktop XRD instruments require several seconds to obtain each 2-theta measurement value, so obtaining all 2-theta measurements may take up to several hours. The Olympus XRD analyzer is equipped with a charge coupled device (CCD) detector, which can simultaneously obtain all 2-theta measurement values, making it possible to display the complete diffraction pattern almost immediately on the screen.
2D X-ray diffractometer: Many XRD tools use X-ray detectors that can only capture photons that fall off the sample in one plane, completing one-dimensional experiments. Olympus' XRD analyzer equipped with a charge coupled device (CCD) detector can collect slices of diffraction rings to help users understand whether the sample has been prepared correctly (particle statistics and/or preferred orientation of grains). Based on this information, users can confirm the accuracy and representativeness of the quantitative data obtained.
Perspective geometry: Unlike large traditional XRD instruments that use reflection geometry techniques, Olympus' XRD analyzer uses transmission geometry techniques at the location where the X-ray beam passes through the sample. The sample volume in the sample pool remains fixed, so changes in sample density will not affect resolution. This feature is particularly important for low-density materials, such as drug samples. Compared to instruments based on reflective geometry technology, our instrument can achieve higher resolution with fixed penetration performance.
Energy differentiated X-ray detector: Larger traditional desktop XRD instruments generally cannot use detectors that are more sensitive to energy, so the detector will be affected by photons that are not used in XRD experiments. In contrast, Olympus' XRD analyzer can remove photons that are not directly involved in X-ray diffraction experiments, such as X-ray fluorescence photons, thereby providing better signal-to-noise ratio modes.
Cobalt tube and copper tube options: The Olympus XRD analyzer comes standard with a sturdy and durable cobalt (Co) target X-ray tube. This type of anode ray tube is widely favored by geologists and mineralogists because it can perform excellently in analyzing samples with high iron (Fe) content. However, in certain applications (such as high manganese content in samples), copper (Cu) target X-ray tubes are required. According to the specific application needs of users, Olympus can provide either of these two types of anode target X-ray tubes.
How does Olympus' XRD analyzer work
Olympus XRD diffractometer uses a fast and convenient method to collect and process XRD data.
Olympus' XRD technology
Micro focused X-ray tube
X-ray beam
collimator
sample
CCD detector
Olympus instruments use transmission geometry techniques (as shown in the above figure) instead of the reflection geometry techniques used in traditional XRD instruments based on angle measuring instruments. The instrument does not have moving parts, but achieves randomization of sample detection by using a vibrating sample tray. The instrument uses a constant frequency to randomize powder samples, which is called powder liquefaction.
The powder is placed between two polyester or polyimide film windows, as shown in the following figure.
Thanks to our convection technology, every grain of the sample in the sample chamber will be irradiated with an X-ray beam in every possible direction within 30 seconds. Through this method, Olympus XRD instruments can achieve 100% randomization of sample detection, which is also a key factor for accurate and precise X-ray diffraction analysis. The Olympus XRD analyzer only requires 15 milligrams of sample to simultaneously collect all practical 2-theta measurement data. The absence of moving parts also contributes to the reliable performance and almost maintenance free advantage of our XRD analyzer.
Technical specifications of BTX III XRD analyzer
| XRD resolution | 0.2 2Ø FWHM |
|---|---|
| XRD range | 5–55° 2Ø |
| detector type | 1024 × 256 pixels; 2D Peltier cooled CCD |
| Sample particle size | Crushed ore<150 μ m (100 mesh sieve, 150 μ m) |
| sample size | About 15 mg |
| X-ray tube target material | Cobalt or copper (cobalt as standard configuration) |
| X-ray tube voltage | 30 kV |
| X-ray tube power | 10 W |
| data storage | 240 GB, Durable and sturdy internal hard drive |
| Wireless connectivity | 802.11 b/g, Remote control from web browser |
| Operating Temperature | -10 °C ~ 35 °C |
| weight | 12.5 kg |
| size | 30 cm × 17 cm × 47 cm |
| Power requirements | Ordinary AC power supply (without cooling system) |
Industry applications:
Minerals and ores
Rich iron ore: Analyze iron rich ores, even in the absence of certain mineral phases.
quartz
hematite
goethite
magnetite
Potassium carbonate: Analyze potassium carbonate for crystal phase identification and semi quantitative analysis of certain identified minerals, including the following minerals:
potassium salt
rock salt
Anhydrous potassium magnesium aluminate
Potassium magnesium alum
Limestone and cement: Easily perform quantitative XRD analysis on ordinary minerals mixed with limestone. When the ores in the quarry contain different contents of dolomite, this analyzer can quickly determine ores with dolomite content ranging from 0.5% to 9%, with an error of only 0.02%.
Alpha quartz
Asbestos ore
calcite
dolomite
Calcite in coal: Quantitative analysis of calcite (CaCO3), a mineral that reduces the combustion efficiency of raw materials in coal-fired power plants, can improve combustion efficiency and reduce carbon emissions by identifying calcite.
Oil and gas
Logging/Mud Logging: Mineral identification and quantification of shale cuttings in oil fields to quickly obtain feedback on geological guidance and horizontal drilling sites. Simplified the process of tracking the direction of mineral veins for specific mineral layers.
silicate
carbonate
clay
pyrite
Pipeline: Energy sensitive detectors can optimize peak, back, and bottom to identify and quantify corrosive materials in pipelines. XRF measurements can also be performed simultaneously to quickly identify the elemental composition of materials.
Square ferrite (FeO), hematite (Fe2O3), goethite (FeO (OH)), pyrite (FeS2)
Calcite (CaCO3), aragonite (CaCO3)
Tailings: Tailings can be easily reanalyzed to assess the operational performance of the factory or to evaluate previous projects.
pharmaceutical
Quickly distinguish the authenticity of drugs.
Perform rapid and non-destructive fingerprint analysis on drug formulations and precursors.
Detect the presence and content of active and inactive foreign or substitute ingredients in drugs.
Rapid XRD analysis helps ensure patient safety and protect the brand of legitimate pharmaceutical companies.
Similar Product Recommend