Physical Properties Testing Services

Physical properties are fundamental attributes that determine the functionality of materials and biological systems. These properties include thermal stability, mechanical behavior, magnetic response, interfacial status, and microstructure. By conducting high-precision, multi-parameter testing, researchers can gain detailed insights into how materials respond to various external conditions, such as heat, force, electricity, magnetism, and surface interfaces. This knowledge is essential for guiding formulation optimization, functional verification, stability evaluation, and structural design.

 

MtoZ Biolabs offers comprehensive Physical Properties Testing Services through a multi-instrument platform that includes Thermogravimetric Analysis (TGA), Differential Scanning Calorimetry (DSC), Universal Testing Machines, Dynamic Mechanical Analysis (DMA), BET Surface Area Analyzers, Laser Particle Size Analyzers, Contact Angle Meters, and more. These services are customizable and systematic, supporting a wide range of materials and applications in scientific research, pharmaceutical development, and functional material characterization.

 

Services at MtoZ Biolabs

 


Thermal Properties
• Thermogravimetric Analysis (TGA) 
• Thermogravimetric Analysis - Differential Scanning Calorimetry (TGA-DSC) 
• Thermogravimetric-infrared (TG-IR) 
• Thermogravimetric-Mass Spectrometry (TG-MS) 
• TG-FTIR-GCMS 
• Temperature Programmed Analysis (TPD/TPR/TPO) 
• Laser Diffraction Particle Size Analysis

Mechanical and Magnetic Properties
• Electronic Universal Testing
• Dynamic Mechanical Analysis (DMA)
• Vibrating Sample Magnetometer (VSM) Analysis

Surface and Interfacial Properties
• Zeta Potential Analysis
• Contact Angle/Surface Tension Measurement

Structural and Morphological Properties
• Mercury Intrusion Porosimetry (MIP) Testing
• Laser Thermal Conductivity Testing 
• BET Specific Surface Area Testing


 

Analysis Workflow

 



 

Why Choose MtoZ Biolabs?

✔ Comprehensive Testing Across Multiple Dimensions

We support testing across thermal, mechanical, interfacial, magnetic, and other parameters, meeting the needs of different research depths.

 

✔ Advanced Analysis Platforms

Our state-of-the-art instruments include TGA-DSC, TG-IR, VSM, DMA, BET, Laser Particle Size Analyzers, and TPD systems, ensuring high-resolution and high-throughput testing capabilities.

 

✔ High Sensitivity and Throughput

We support micro-sample testing and multi-sample batch analysis, ideal for early-stage research and process validation.

 

✔ Cross-Scale Structure-Property Correlation Studies

From microstructure to macro behavior, we uncover the intrinsic relationship between material performance, composition, and processing conditions.

 

✔ One-Time-Charge

Our pricing is transparent, no hidden fees or additional costs.

 

Sample Submission Suggestions

Our Physical Properties Testing Services are applicable to various sample types, including but not limited to powders, particles, liquids, films, and bulk materials. We cover a broad range of research objects such as biological materials, polymers, nanoparticles, and catalyst carriers.

 

Different testing methods require specific sample conditions, handling procedures, and submission quantities. To ensure the best results and meet platform requirements, we recommend contacting us before sample preparation. Our team will provide detailed sample submission guidelines and tailored technical support.

 

What Could be Included in the Report?

1. Raw Testing Data (spectra, heat maps, curves)

2. Parameter Summary Table (e.g., Tg, Tm, stress-strain data, surface area, etc.)

3. Analytical Results Report with Conclusion Interpretation

4. Experimental Method Description and Condition Parameter Table

 

Leveraging advanced multi-platform equipment and standardized processes, MtoZ Biolabs provides comprehensive Physical Properties Testing Services, covering thermal, mechanical, interfacial, electromagnetic, and microstructural properties. We help researchers and product development teams gain a deeper understanding of material performance, optimize design solutions, and achieve efficient translation from basic research to industrial implementation. Contact us for customized solutions and join us in creating data-driven innovations for the future.

 

FAQ

Q1: Can physical property testing reveal risks of drug polymorph transformation or polymorph coexistence?

Yes. By combining DSC, XRD, POM, and other multi-platform techniques, we can cross-validate the crystal structure, thermal transition behavior, and morphological features of drugs. This allows us to identify polymorph transformations, amorphous forms, and polymorph coexistence, which is particularly useful for generic drug consistency evaluations, patent avoidance, and crystallization process optimization studies.

 

Q2: How should thermal testing techniques (such as TGA, DSC, TG-MS) be selected for studying the thermal stability of complex systems?

For multi-component drug formulations, polymers, or composite materials, we recommend using TGA for mass loss analysis, DSC for thermal transition behavior (e.g., melting, glass transition), and TG-IR or TG-MS for analyzing released gas components. MtoZ Biolabs can recommend the most suitable thermal testing strategy based on your sample characteristics and research objectives to achieve precise analysis of thermal stability and degradation mechanisms.

 

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