Lithium Ore Mineral Analyzer Atomic Absorption Spectrophotometry Spectrophotometer Price

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Lithium Ore Mineral Analyzer Atomic Absorption Spectrophotometry Spectrophotometer Price

Name: Lithium Ore Mineral Analyzer Atomic Absorption Spectrophotometry Spectrophotometer Price
Brand: Shanghai Drawell Scientific Instrument Co., Ltd.
SKU: 1601194264121_1
Price: 6400.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Elemental Analysis: Designed for precise detection of lithium and other minerals in ore samples using atomic absorption spectrophotometry, enabling accurate compositional assessment.
Multi-Wavelength Detection: Equipped with a broad wavelength range of 190-900 nm, ensuring high sensitivity and specificity for diverse analytical tasks.

Key features

1. Material Technology

With a corrosion-resistant stainless steel body, you can ensure durability in harsh laboratory environments.

2. Interactive Design

With a programmable digital control panel, you can customize testing protocols for precise measurements.

3. Performance Parameters

With a wide wavelength range of 190-900 nm, you can analyze a broader spectrum of elements in

Product details

The DR. WELI DW-180 Lithium Ore Mineral Analyzer is a high-precision atomic absorption spectrophotometer designed for rapid and accurate analysis of lithium and other trace elements in mineral samples. Built with corrosion-resistant materials and modular features, it combines durability, flexibility, and cutting-edge technology to meet the demands of modern mining, research, and quality control labs.

Technical specifications

Feature	Specification	Application Scenario
Wavelength Range	190-900 nm	Accurate analysis of lithium and other elements in ores
Material	Stainless steel chassis	Corrosion resistance for harsh laboratory environments
Display	High-resolution digital touchscreen	Real-time monitoring of absorption spectra and results
Sample Chamber	Modular, transparent design	Observation and adjustment during sample analysis
Detection Limit	<0.01 ppm (lithium)	Trace element quantification in low-concentration samples

Customization guide

Adjustable parameters include sample chamber size (to accommodate varying ore sample sizes) and tube configurations (for customized reagent delivery). Users can also program the control panel to optimize absorption protocols for specific lithium ore types.

Get inspired

Whether you’re analyzing lithium deposits for mining exploration or validating battery-grade materials in a lab, the DW-180 ensures precision and efficiency. Its robust design and modular flexibility make it ideal for field deployments or high-throughput analytical workflows.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Wavelength Range	190-900 nm	150-950 nm	150-970 nm
Detection Limit	<0.01 ppm	<0.005 ppm	<0.001 ppm
Automation	Manual calibration	Semi-automated	Fully automated
Software Features	Basic data logging	Cloud integration	AI-driven analytics

Supplier's note

Key Technical Breakthroughs:
- Extended Wavelength Range: The Pro Model’s 150-970 nm spectrum covers 20% more elements than traditional spectrophotometers, enabling analysis of rare earth metals alongside lithium.
- Ultra-Low Detection Limit: The Advanced Model’s <0.005 ppm threshold meets ISO 17025 standards for ultra-trace analysis in battery-grade lithium.
- Modular Design: Customizable sample chambers and tube configurations allow labs to adapt the instrument for unique ore matrices (e.g., clay vs. brine deposits).
Version Selection Guidance:
- Base Model: Ideal for small labs or field teams requiring basic lithium quantification.
- Advanced Model: Suitable for mid-sized labs needing semi-automated workflows and higher precision (e.g., quality control in lithium refining).
- Pro Model: Best for research institutions or industrial-scale operations requiring AI-driven analytics and ultra-low detection limits (e.g., R&D for next-gen battery materials).

With the Pro Model’s 150-970 nm range, you can analyze cobalt and nickel alongside lithium in a single workflow—critical for optimizing battery alloy compositions. Its cloud integration also enables remote troubleshooting, reducing downtime by 30% compared to standalone systems.

Frequently asked questions

Which model of atomic absorption spectrophotometer is best for analyzing lithium ores in mining operations?
How do I clean the sample chamber of the DR. WELI DW-180 spectrophotometer?
Is the DW-180 certified for ISO laboratory standards?
Can the DW-180 be customized with additional modules for expanded mineral analysis?
What wavelength range does the DW-180 cover for lithium concentration measurements?
How does the DW-180 ensure precision in lithium ore analysis?
Is the DW-180 suitable for labs with limited space?
Can the DW-180 analyze multiple mineral samples simultaneously?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Wavelength Range	Diverse mineral analysis (Li, Mg, Fe)	Industry: 190-800 nm (UV-Vis) Our Base: 190-900 nm (▲ extends to near-IR) Advanced: 190-950 nm (▲▲ full near-IR coverage)	Advanced covers critical Li absorption peaks (671 nm) Base meets most lab needs	Industry standard misses Li detection at 900 nm+
Material Construction	Harsh chemical labs	Industry: SS 304 (resists common acids) Base: SS 316L (▲ ASTM F138 certified) Advanced: SS 316L + PTFE (▲▲ resists 50+ chemicals)	Advanced withstands HF, HCl, and concentrated bases Base prevents corrosion	Industry standard corrodes in strong acids/bases
Noise Level	Noise-sensitive environments	Industry: 55 dBA (office chatter) Base: 48 dBA (▲ quieter than whisper) Advanced: 43 dBA (▲▲ quieter than fridge hum)	Advanced ideal for shared labs Base reduces disturbance in offices	Industry standard disrupts nearby workspaces
Chemical Resistance	Aggressive reagent handling	Industry: 20+ chemicals (ISO 10993) Base: 35 chemicals (▲ ASTM D543) Advanced: 50+ chemicals (▲▲ includes concentrated HNO₃)	Advanced handles extreme conditions like lithium refining Base suits routine labs	Industry standard fails with strong oxidizers
Sample Handling	High-throughput labs	Industry: 10 samples/batch (manual) Base: 20 samples (▲ automated carousel) Advanced: 30 samples (▲▲ robotic autosampler)	Advanced reduces downtime by 40% Base cuts manual labor	Industry standard requires frequent operator intervention
Data Processing Speed	Real-time field analysis	Industry: 30 sec/sample (basic CPU) Base: 15 sec (▲ quad-core) Advanced: 8 sec (▲▲ GPU-accelerated)	Advanced enables instant decision-making in mining sites Base improves workflow	Industry standard delays critical analysis

Lithium Ore Mineral Analyzer Atomic Absorption Spectrophotometry Spectrophotometer Price

Lithium Ore Mineral Analyzer Atomic Absorption Spectrophotometry Spectrophotometer Price

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology

2. Interactive Design

3. Performance Parameters

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which model of atomic absorption spectrophotometer is best for analyzing lithium ores in mining operations?

How do I clean the sample chamber of the DR. WELI DW-180 spectrophotometer?

Is the DW-180 certified for ISO laboratory standards?

Can the DW-180 be customized with additional modules for expanded mineral analysis?

What wavelength range does the DW-180 cover for lithium concentration measurements?

How does the DW-180 ensure precision in lithium ore analysis?

Is the DW-180 suitable for labs with limited space?

Can the DW-180 analyze multiple mineral samples simultaneously?

Product comparison

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