1、物質安全資料表 聯 超 實 業

聯合國編號:- 聯合國運輸名稱: (HYDROGENATED HYDROCARBON RESIN) 運輸危害分類:本產品依 IATA DANGEROUS GOOD REQULATION ,非屬所管制之危險物。 包裝類別:III 海洋污染物(是/否):否

2、Plastics App, Example Lab Test Report WO 502193 1. 2. Equipment

Plastics App, Example Lab Test Report WO 502193 1. 2. Equipment Plastics App, Example Lab Test Report – WO 502193 ___________________________________________________________________________

3、Test Parameters and Resin

Before running a laboratory test, the sample needs to be conditioned to ensure full swelling and hydration of the resin. Unless otherwise advised, the resin must be soaked. When samples are sent out from Purolite, the resin is taken directly from production batches or warehouse stock.

4、How to Calibrate Resin 3D Prints – Testing for Resin Exposure

Learn how to calibrate resin 3D prints and conduct precise resin exposure tests. Achieve exceptional results with our expert guide.

5、Resins Testing

Advanced polymer resin testing and analysis techniques and expertise to aid troubleshooting, QC and R&D. Intertek polymer and plastics resin testing capabilities help clients worldwide with troubleshooting expertise, research, formulation, failure analysis and many other mission-critical projects.

C9 HYDROGENATED HYDROCARBON RESIN – Petroleum resin

This product is high quality, multi-purpose water white thermoplastic resin abtained by polymerization and hydrogenation of C9 fraction, a byproduct of the ethylene plant.

C9 氢化石油树脂/C9 Hydrogenated Hydrocarbon Resin

Hydrocarbon Resin RES-900 1. 产品描述/Product Description 碳九氢化石油树脂是由乙烯裂解副产C. 9馏分通过聚合及加氢获得的水白色热塑性树脂。具有较好的热稳定性,以及与SIS、EVA、SBS、SEBS 、聚. 烃等聚合物有良好的相容性,可用于橡胶混炼。 RES-900 is water-white thermoplastic. esin obtained from polymerizing of Aromatic and hydrogenation. With the good heat resistance and good compatibility with polymer such as SIS, EVA, SBS, . EB.

TEST MEASUREMENT GUIDE

Viscosity is a term and value used to describe the internal friction of a fluid. The degree of friction is observed when a force is applied to the material. The more friction detected, the more force required to move the material or to "shear" it. Shearing occurs when the fluid is actually moved.

HYDROGENATED C9 HYDROCARBON RESIN

Production Process: C9 petroleum resin reacts with hydrogen under high temperature and pressure to produce a transparent, colorless, and odorless hydrogenated petroleum resin.

As an important polymer material, hydrogenated resin is widely used in coatings, adhesives, sealing materials, and other fields. Its performance directly affects the quality and properties of products. accurate testing and evaluation of hydrogenated resin are particularly critical. This report provides a detailed introduction to the testing methods, experimental results, and analysis of hydrogenated resin, aiming to serve as a reference for research and application in related fields.

I. Testing Methods

1. Physicochemical Property Tests

• Density Test: Measured using the Archimedes drainage method.
• Softening Point Test: Determined with a standard softening point apparatus.
• Tensile Strength Test: Conducted using an electronic universal testing machine.
• Hardness Test: Measured with a Rockwell hardness tester.
• Thermal Stability Test: Analyzed via thermogravimetric analysis (TGA) under varying temperatures.

2. Chemical Performance Tests

• Solubility Test: Assessed in different solvents.
• Alkali/Acid Resistance Test: Evaluated using acid-base titration methods.
• Oxidation Resistance Test: Measured by oxidation induction time (OIT) or peroxide value (PV).
• Light Resistance Test: Tested through ultraviolet (UV) aging experiments under prolonged light exposure.

3. Mechanical Property Tests

• Compressive Strength Test: Conducted using a compressive strength testing machine.
• Impact Strength Test: Determined via drop-weight impact testing.
• Creep Test: Analyzed with a creep testing machine under varying stress conditions.

II. Experimental Results and Analysis

1. Physicochemical Property Results

• Density: Minor fluctuations were observed across batches, but all results fell within expected ranges.
• Softening Point: All samples met the predetermined softening point requirements, indicating good heat resistance.
• Tensile Strength and Hardness: Some samples demonstrated excellent tensile strength and hardness, reflecting optimal raw material ratios.
• Thermal Stability: Most samples showed strong thermal stability, though degradation trends emerged under extreme conditions.

2. Chemical Performance Results

• Solubility: The majority of samples exhibited good solubility, but a few cases required improvement.
• Alkali/Acid and Oxidation Resistance: All samples passed industrial standards for chemical resistance.
• Light Resistance: Some samples degraded after prolonged UV exposure, highlighting the need for enhanced protective measures.

3. Mechanical Property Results

• Compressive Strength: Most samples met design specifications, though formulation optimization is recommended for certain cases.
• Impact Strength: Generally strong performance, but condition-specific weaknesses require attention.
• Creep Behavior: All samples exhibited creep under long-term stress, necessitating further research into mitigation strategies.

III. Conclusions and Recommendations

Comprehensive testing revealed that hydrogenated resin demonstrates stable physical properties, superior chemical resistance, and moderate mechanical performance. deficiencies in light resistance and extreme-condition stability were identified. To enhance overall performance, the following recommendations are proposed:

1. Raw Material Control: Strengthen selection and quality monitoring of raw materials.
2. Process Optimization: Refine production processes to improve efficiency and product consistency.
3. Long-Term Stability Research: Prioritize studies on extreme-condition stability and durability.
4. Market Application: Expand research into practical applications to boost user acceptance and satisfaction.

By addressing these areas, the performance and reliability of hydrogenated resin can be further improved for industrial and research purposes.