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  • Prateek Yadav shared a link
    2025-01-14 06:41:21 -
    Using Renewable Energy Source: An Introduction to Biogas

    Biogas is a renewable source of energy produced from organic waste such as food waste, agricultural waste, sewage,etc through a process of anaerobic digestion. In the anaerobic digestion, microorganisms breakdown biodegradable material in the absence of oxygen to produce biogas. Biogas mainly contains methane (CH4) and carbon dioxide (CO2) along with small amounts of other gases.

    Anaerobic Digestion Process

    The anaerobic digestion occurs in four stages to produce Biogas from organic waste. In the first stage, hydrolysis, enzymes excreted by bacteria breaks down insoluble organic polymers such as carbohydrates, fats and proteins into soluble components.

    Biogas - https://www.coherentmarketinsights.com/market-insight/biogas-market-3015
    Using Renewable Energy Source: An Introduction to Biogas Biogas is a renewable source of energy produced from organic waste such as food waste, agricultural waste, sewage,etc through a process of anaerobic digestion. In the anaerobic digestion, microorganisms breakdown biodegradable material in the absence of oxygen to produce biogas. Biogas mainly contains methane (CH4) and carbon dioxide (CO2) along with small amounts of other gases. Anaerobic Digestion Process The anaerobic digestion occurs in four stages to produce Biogas from organic waste. In the first stage, hydrolysis, enzymes excreted by bacteria breaks down insoluble organic polymers such as carbohydrates, fats and proteins into soluble components. Biogas - https://www.coherentmarketinsights.com/market-insight/biogas-market-3015
    WWW.COHERENTMARKETINSIGHTS.COM
    Biogas Market - Companies, Size, Share & Research Analysis
    Biogas Market is segmented By Application (Electricity & Heat Generation, Vehicle Fuel, Domestic Cooking, and Others)
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  • Avinash Gogawale shared a link
    2024-06-19 06:19:10 -
    A Deep Dive into the Non-Dispersive Infrared (NDIR) Market: Growth, Trends, and Forecast

    The Non-Dispersive Infrared (NDIR) Market is projected to experience steady growth, with an estimated valuation of USD 681 million in 2024, reaching USD 965 million by 2029. This represents a compound annual growth rate (CAGR) of 7.2%. The market expansion is primarily driven by the increasing adoption of NDIR sensors across various applications, including environmental monitoring, industrial safety, and HVAC systems. NDIR technology's ability to provide precise and reliable gas detection for CO2, methane, and other hydrocarbons positions it as a critical component in these sectors. Additionally, advancements in sensor technology, including miniaturization and integration with IoT platforms, are further enhancing its market appeal, ensuring robust growth over the forecast period.

    Download PDF Brochure: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=90187624

    The increasing demand for Non-Dispersive Infrared (NDIR) gas sensors across industries such as automotive and transportation, industrial and manufacturing, and food and beverages is significantly driving the growth of the NDIR market. These sensors are essential for monitoring and controlling emissions, ensuring safety, and maintaining quality standards. However, the market faces challenges due to intense pricing pressure, which leads to a decreased average selling price and can hinder overall market profitability. Despite these restraints, the growing adoption of gas sensors in consumer electronics presents lucrative opportunities for market players. As the integration of NDIR technology into smart devices and home automation systems becomes more prevalent, manufacturers can capitalize on this expanding segment to sustain and enhance market growth in the coming years.

    Based on application type, the NDIR market for monitoring applications is expected to hold the highest market share during the forecast period.

    Air pollution is a global environmental threat that commands significant attention from governments worldwide. Simultaneously, anesthesia monitoring is crucial for ensuring patient safety during healthcare procedures, necessitating real-time tracking of gases like carbon dioxide, nitrous oxide, and potent anesthetic agents such as isoflurane, sevoflurane, and desflurane. The need for precise gas monitoring in these critical applications is driving the growth of the Non-Dispersive Infrared (NDIR) market. Furthermore, the monitoring of refrigerant gases and the use of capnography in medical settings are also likely to boost the demand for NDIR sensors. These applications underscore the versatility and importance of NDIR technology in addressing both environmental and healthcare challenges, ensuring its market expansion in the coming years.

    Inquiry Before Buying: https://www.marketsandmarkets.com/Enquiry_Before_BuyingNew.asp?id=90187624

    NDIR market for VOCs to hold high market share during the forecast period.

    Given the widespread presence of volatile organic compounds (VOCs) in manufacturing processes across industries such as textiles, plastics, and pharmaceuticals, the demand for VOC sensors is on the rise. VOCs are prevalent in various household, industrial, and commercial products, but their accumulation in the air and water has drawn significant concern due to potential health and environmental impacts. VOC sensors are crucial in maintaining safe working environments and preserving air quality in urban areas by detecting and monitoring harmful emissions. As awareness of the dangers associated with VOC exposure increases, driven by regulatory standards and public health initiatives, the market for VOC sensors is anticipated to expand significantly in the coming years. This growth will be fueled by the continuous need to ensure compliance with environmental regulations and the adoption of proactive measures to protect both human health and the environment.
    A Deep Dive into the Non-Dispersive Infrared (NDIR) Market: Growth, Trends, and Forecast The Non-Dispersive Infrared (NDIR) Market is projected to experience steady growth, with an estimated valuation of USD 681 million in 2024, reaching USD 965 million by 2029. This represents a compound annual growth rate (CAGR) of 7.2%. The market expansion is primarily driven by the increasing adoption of NDIR sensors across various applications, including environmental monitoring, industrial safety, and HVAC systems. NDIR technology's ability to provide precise and reliable gas detection for CO2, methane, and other hydrocarbons positions it as a critical component in these sectors. Additionally, advancements in sensor technology, including miniaturization and integration with IoT platforms, are further enhancing its market appeal, ensuring robust growth over the forecast period. Download PDF Brochure: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=90187624 The increasing demand for Non-Dispersive Infrared (NDIR) gas sensors across industries such as automotive and transportation, industrial and manufacturing, and food and beverages is significantly driving the growth of the NDIR market. These sensors are essential for monitoring and controlling emissions, ensuring safety, and maintaining quality standards. However, the market faces challenges due to intense pricing pressure, which leads to a decreased average selling price and can hinder overall market profitability. Despite these restraints, the growing adoption of gas sensors in consumer electronics presents lucrative opportunities for market players. As the integration of NDIR technology into smart devices and home automation systems becomes more prevalent, manufacturers can capitalize on this expanding segment to sustain and enhance market growth in the coming years. Based on application type, the NDIR market for monitoring applications is expected to hold the highest market share during the forecast period. Air pollution is a global environmental threat that commands significant attention from governments worldwide. Simultaneously, anesthesia monitoring is crucial for ensuring patient safety during healthcare procedures, necessitating real-time tracking of gases like carbon dioxide, nitrous oxide, and potent anesthetic agents such as isoflurane, sevoflurane, and desflurane. The need for precise gas monitoring in these critical applications is driving the growth of the Non-Dispersive Infrared (NDIR) market. Furthermore, the monitoring of refrigerant gases and the use of capnography in medical settings are also likely to boost the demand for NDIR sensors. These applications underscore the versatility and importance of NDIR technology in addressing both environmental and healthcare challenges, ensuring its market expansion in the coming years. Inquiry Before Buying: https://www.marketsandmarkets.com/Enquiry_Before_BuyingNew.asp?id=90187624 NDIR market for VOCs to hold high market share during the forecast period. Given the widespread presence of volatile organic compounds (VOCs) in manufacturing processes across industries such as textiles, plastics, and pharmaceuticals, the demand for VOC sensors is on the rise. VOCs are prevalent in various household, industrial, and commercial products, but their accumulation in the air and water has drawn significant concern due to potential health and environmental impacts. VOC sensors are crucial in maintaining safe working environments and preserving air quality in urban areas by detecting and monitoring harmful emissions. As awareness of the dangers associated with VOC exposure increases, driven by regulatory standards and public health initiatives, the market for VOC sensors is anticipated to expand significantly in the coming years. This growth will be fueled by the continuous need to ensure compliance with environmental regulations and the adoption of proactive measures to protect both human health and the environment.
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    Download PDF Brochure - Non-dispersive Infrared (NDIR) Market Size, Share, Industry Report, Revenue Trends and Growth Drivers
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  • Jhq Zhe shared a link
    2024-04-22 06:06:14 -
    The Environmental Revolution and Performance Excellence in the Refrigeration Industry
    Difluoromethane R-32(https://www.liminchemical.com/product/refrigerant-products/difluoromethane-r32.html) is a colorless, odorless and non-toxic gas with high chemical stability and safety. Compared to many conventional refrigerants, Difluoromethane R-32 has a lower Global Warming Potential (GWP) and zero Ozone Depletion Potential (ODP), making it an ideal environmentally friendly alternative. As governments continue to raise environmental requirements for refrigerants, Difluoromethane R-32 will have an increasingly broader application outlook.
    ifluoromethane R-32 has good refrigeration performance, thanks to its unique physical and chemical properties.The refrigeration capacity of Difluoromethane R-32 is about three times that of traditional R-22 refrigerant, which means that the charge of Difluoromethane R-32 can be reduced to one-third of the original amount for the same refrigeration demand.
    The Environmental Revolution and Performance Excellence in the Refrigeration Industry Difluoromethane R-32(https://www.liminchemical.com/product/refrigerant-products/difluoromethane-r32.html) is a colorless, odorless and non-toxic gas with high chemical stability and safety. Compared to many conventional refrigerants, Difluoromethane R-32 has a lower Global Warming Potential (GWP) and zero Ozone Depletion Potential (ODP), making it an ideal environmentally friendly alternative. As governments continue to raise environmental requirements for refrigerants, Difluoromethane R-32 will have an increasingly broader application outlook. ifluoromethane R-32 has good refrigeration performance, thanks to its unique physical and chemical properties.The refrigeration capacity of Difluoromethane R-32 is about three times that of traditional R-22 refrigerant, which means that the charge of Difluoromethane R-32 can be reduced to one-third of the original amount for the same refrigeration demand.
    WWW.LIMINCHEMICAL.COM
    Refrigerant Manufacturers, Suppliers, China Factory
    Limin refrigerant manufacturer recommended high quality refrigerant, which is used in a heat cycle to transfer heat from one area and remove it to another. Welcome to view our website to know different types of refrigerants and contact us at any time.
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  • Grace Grace added new product for sale
    2023-07-14 08:54:42 -
    Methylcyclohexane CAS108-87-2
    Methylcyclohexane CAS108-87-2
    Cyclohxylmethane;
    heptanaphthene;
    methyl-cyclohexan;
    methylecyclohexane;
    Metylocykloheksan

    RTECS No. GV6125000
    Molecular Formula C7H14
    CAS No. 108-87-2
    EINECS No. 203-624-3
    UN Dangerous Goods Code (UN No.): 2296
    Shipping name: Methylcyclohexane
    Hazardous classification :3
    Packing Group II
    Customs code 2902 19 00
    grade anhydrous
    Quality Level 100
    vapor density 3.4 (vs air)
    vapor pressure 37 mmHg ( 20 °C)
    83.2 mmHg ( 37.7 °C)
    Assay ≥99%
    form liquid
    autoignition temp. 545 °F
    impurities <0.002% water
    <0.005% water (100 mL pkg)
    evapn. residue <0.0005%
    refractive index n20/D 1.422 (lit.)
    bp 101 °C (lit.)
    mp −126 °C (lit.)
    density 0.77 g/mL at 25 °C (lit.)
    SMILES string CC1CCCCC1
    InChI 1S/C7H14/c1-7-5-3-2-4-6-7/h7H,2-6H2,1H3
    InChI key UAEPNZWRGJTJPN-UHFFFAOYSA-N


    Application
    Methylcyclohexane may be used as a solvent for the synthesis of unsolvated n-butylmagnesium chloride by the reaction of 1-chlorobutane with magnesium powder. It may also be used as the starting material to synthesize 1-methylcyclohexanecarboxylic acid.
    Pharmaceutical intermediates. Methylcyclohexane is an important organic solvent and extractant, which can be used as a solvent for rubber, paint, varnish (some paint solvents also use methylcyclohexane), and can be used as oil extractant. Methylcyclohexane can be used in organic synthesis as solvent and analytical reagent. In addition, methylcyclohexane can also be used as a standard for thermometer calibration. The correction solution is usually made of methylcyclohexane as the main component.



    Description
    Catalogue Number 806147
    Description Methylcyclohexane
    Product Information
    CAS number 108-87-2
    EC index number 601-018-00-7
    EC number 203-624-3
    Hill Formula C₇H₁₄
    Chemical formula C₆H₁₁CH₃
    Molar Mass 98.19 g/mol
    HS Code 2902 19 00
    Structure formula Image
    Quality Level MQ200
    Physicochemical Information
    Appearance Form:
    liquid
    Color: colorless
    Explosion limit 1.1 - 6.7 %(V)
    Flash point -4 °C
    Ignition temperature 260 °C
    Melting Point -126.6 °C
    Solubility 0.014 g/l
    Initial boiling point and boiling range 101 °C 214 °F - lit.
    Upper/lower flammability or explosive limits Upper explosion limit: 6.7 %(V) Lower explosion limit: 1.1 %(V)
    Toxicological Information
    LD 50 dermal LD50 Rabbit > 86000 mg/kg
    Safety Information according to GHS
    Hazard Pictogram(s)

    Hazard Statement(s) H225: Highly flammable liquid and vapour.
    H304: May be fatal if swallowed and enters airways.
    H315: Causes skin irritation.
    H336: May cause drowsiness or dizziness.
    H410: Very toxic to aquatic life with long lasting effects.
    Precautionary Statement(s) P210: Keep away from heat, hot surfaces, sparks, open flames and other ignition sources. No smoking.
    P233: Keep container tightly closed.
    P273: Avoid release to the environment.
    P301 + P310: IF SWALLOWED: Immediately call a POISON CENTER/doctor.
    P303 + P361 + P353: IF ON SKIN (or hair): Take off immediately all contaminated clothing. Rinse skin with water.
    P331: Do NOT induce vomiting.
    P403 + P233: Store in a well-ventilated place. Keep container tightly closed.
    Signal Word Danger
    RTECS GV6125000
    Storage class 3 Flammable liquids
    WGK WGK 2 obviously hazardous to water
    Safety Information
    Categories of danger highly flammable, irritant, harmful, dangerous for the environment
    Storage and Shipping Information
    Storage Store below +30°C.
    Transport Information
    Declaration (railroad and road) ADR, RID UN 2296 , 3, II
    Declaration (transport by air) IATA-DGR UN 2296 , 3, II
    Declaration (transport by sea) IMDG-Code UN 2296 , 3, II
    Specifications
    Assay (GC, area%) ≥ 99 %
    Density (d 20 °C/ 4 °C) 0.769 - 0.770
    Identity (IR) passes test

    Storage and transportation:
    Should be sealed and stored in a dry, cool and ventilated warehouse

    Package:
    200KG/drum Storage: It is recommended to store in dry and cool area with proper ventilation. Please fasten the lid as soon as possible after original packing to prevent the mixing of other substances such as moisture from affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change clothes. Store contaminated clothes separately and wash them before use. Maintain good hygiene habits.
    https://www.newtopchem.com/archives/43090
    Email us: info@newtopchem.com
    Methylcyclohexane CAS108-87-2 Cyclohxylmethane; heptanaphthene; methyl-cyclohexan; methylecyclohexane; Metylocykloheksan RTECS No. GV6125000 Molecular Formula C7H14 CAS No. 108-87-2 EINECS No. 203-624-3 UN Dangerous Goods Code (UN No.): 2296 Shipping name: Methylcyclohexane Hazardous classification :3 Packing Group II Customs code 2902 19 00 grade anhydrous Quality Level 100 vapor density 3.4 (vs air) vapor pressure 37 mmHg ( 20 °C) 83.2 mmHg ( 37.7 °C) Assay ≥99% form liquid autoignition temp. 545 °F impurities <0.002% water <0.005% water (100 mL pkg) evapn. residue <0.0005% refractive index n20/D 1.422 (lit.) bp 101 °C (lit.) mp −126 °C (lit.) density 0.77 g/mL at 25 °C (lit.) SMILES string CC1CCCCC1 InChI 1S/C7H14/c1-7-5-3-2-4-6-7/h7H,2-6H2,1H3 InChI key UAEPNZWRGJTJPN-UHFFFAOYSA-N Application Methylcyclohexane may be used as a solvent for the synthesis of unsolvated n-butylmagnesium chloride by the reaction of 1-chlorobutane with magnesium powder. It may also be used as the starting material to synthesize 1-methylcyclohexanecarboxylic acid. Pharmaceutical intermediates. Methylcyclohexane is an important organic solvent and extractant, which can be used as a solvent for rubber, paint, varnish (some paint solvents also use methylcyclohexane), and can be used as oil extractant. Methylcyclohexane can be used in organic synthesis as solvent and analytical reagent. In addition, methylcyclohexane can also be used as a standard for thermometer calibration. The correction solution is usually made of methylcyclohexane as the main component. Description Catalogue Number 806147 Description Methylcyclohexane Product Information CAS number 108-87-2 EC index number 601-018-00-7 EC number 203-624-3 Hill Formula C₇H₁₄ Chemical formula C₆H₁₁CH₃ Molar Mass 98.19 g/mol HS Code 2902 19 00 Structure formula Image Quality Level MQ200 Physicochemical Information Appearance Form: liquid Color: colorless Explosion limit 1.1 - 6.7 %(V) Flash point -4 °C Ignition temperature 260 °C Melting Point -126.6 °C Solubility 0.014 g/l Initial boiling point and boiling range 101 °C 214 °F - lit. Upper/lower flammability or explosive limits Upper explosion limit: 6.7 %(V) Lower explosion limit: 1.1 %(V) Toxicological Information LD 50 dermal LD50 Rabbit > 86000 mg/kg Safety Information according to GHS Hazard Pictogram(s) Hazard Statement(s) H225: Highly flammable liquid and vapour. H304: May be fatal if swallowed and enters airways. H315: Causes skin irritation. H336: May cause drowsiness or dizziness. H410: Very toxic to aquatic life with long lasting effects. Precautionary Statement(s) P210: Keep away from heat, hot surfaces, sparks, open flames and other ignition sources. No smoking. P233: Keep container tightly closed. P273: Avoid release to the environment. P301 + P310: IF SWALLOWED: Immediately call a POISON CENTER/doctor. P303 + P361 + P353: IF ON SKIN (or hair): Take off immediately all contaminated clothing. Rinse skin with water. P331: Do NOT induce vomiting. P403 + P233: Store in a well-ventilated place. Keep container tightly closed. Signal Word Danger RTECS GV6125000 Storage class 3 Flammable liquids WGK WGK 2 obviously hazardous to water Safety Information Categories of danger highly flammable, irritant, harmful, dangerous for the environment Storage and Shipping Information Storage Store below +30°C. Transport Information Declaration (railroad and road) ADR, RID UN 2296 , 3, II Declaration (transport by air) IATA-DGR UN 2296 , 3, II Declaration (transport by sea) IMDG-Code UN 2296 , 3, II Specifications Assay (GC, area%) ≥ 99 % Density (d 20 °C/ 4 °C) 0.769 - 0.770 Identity (IR) passes test Storage and transportation: Should be sealed and stored in a dry, cool and ventilated warehouse Package: 200KG/drum Storage: It is recommended to store in dry and cool area with proper ventilation. Please fasten the lid as soon as possible after original packing to prevent the mixing of other substances such as moisture from affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change clothes. Store contaminated clothes separately and wash them before use. Maintain good hygiene habits. https://www.newtopchem.com/archives/43090 Email us: info@newtopchem.com
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    Price
    $10 (USD)
    Status
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  • Grace Grace added new product for sale
    2023-06-28 02:10:16 -
    N,N-dimethylcyclohexylamine CAS 98-94-2
    N,N-dimethylcyclohexylamine CAS 98-94-2

    Descriptions:
    Product:N,N-dimethylcyclohexylamine
    CAS: 98-94-2

    Physicochemical properties:
    Density 0.9±0.1 g/cm3
    Boiling point 162.0±8.0 °C at 760 mmHg
    Melting point -60 °C
    Molecular Formula C8H17N
    Molecular Weight 127.227
    Flash point 42.2±0.0 °C
    Accurate mass 127.136101
    PSA 3.24000
    LogP 2.12
    Appearance Transparent liquid
    Vapor pressure 2.2±0.3 mmHg at 25°C
    Refractive index 1.460
    Stability
    1.Stabilization
    2.Forbidden ligand strong oxidant, strong acid, acyl chloride, anhydride
    3.Avoid heat in contact conditions
    4.Hazardous Polymerization no polymerize
    Water solubility 10 g/L (20 ºC)
    Freezing point <-77℃
    Molecular structure
    1、Molar refraction index:40.89
    2、Molar volume(cm3/mol):149.3
    3、Parachor(90.2K):345.1
    4、Surface tension(dyne/cm):28.5
    5、Polarizability:16.21

    Application:
    【1】Mainly used as polyurethane rigid foam catalyst
    【2】N, N-dimethylcyclohexylamine can be used in a wide range of rigid foams. One of the main applications is for insulating foams, including sprays, plates, laminated sheets and refrigeration formulations. N, N- dimethylcyclohexylamine is also suitable for the manufacture of rigid foam furniture frames and decorative parts. The catalyst can be used as the main catalyst alone, without adding organic tin, or supplemented with JD series catalyst according to the process and product requirements. It is also used as a rubber accelerator and as an intermediate in synthetic fibers.
    【3】Used as dye intermediates, used for vanillin, azo dyes, triphenylmethane dyes, also can be used as solvents, stabilizers, analytical reagents and so on. Also used as a catalyst.

    Storage and transport information:
    1.Store in a cool and ventilated warehouse. Keep away from fire and heat source. The storage temperature should not exceed 30℃. Keep container sealed. Should be stored separately with oxidizer, acid, etc., do not mix storage. Explosion-proof lighting and ventilation facilities are adopted. Do not use mechanical equipment and tools that may cause sparks. The storage area shall be equipped with leakage emergency treatment equipment and suitable storage materials.
    2.Packed in iron drums, 50kg/ drum, 170kg/ drum. Flammable liquid <2>, sealed, stored in a cool place, away from fire source, fire transportation.

    Packaging:
    200KG/ drum storage: It is recommended to store in dry and cool areas and properly ventilated. After the original packaging, please fasten the packaging cover as soon as possible to prevent moisture and other substances from mixing and affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change. Store contaminated clothes separately and reuse them after washing. Maintain good hygiene.
    Contact Us
    SHANGHAI OHANS CO., LTD.
    Factory Address :Jining High-tech Development Zone, Shandong, China
    Headquarters :Room a2110, building 55, No. 709, Lingshi Road, Zhabei District, Shanghai
    Technical support and business contacts E-mail:info@newtopchem.com
    More:https://www.ohans.com/nn-dimethylcyclohexylamine/
    N,N-dimethylcyclohexylamine CAS 98-94-2 Descriptions: Product:N,N-dimethylcyclohexylamine CAS: 98-94-2 Physicochemical properties: Density 0.9±0.1 g/cm3 Boiling point 162.0±8.0 °C at 760 mmHg Melting point -60 °C Molecular Formula C8H17N Molecular Weight 127.227 Flash point 42.2±0.0 °C Accurate mass 127.136101 PSA 3.24000 LogP 2.12 Appearance Transparent liquid Vapor pressure 2.2±0.3 mmHg at 25°C Refractive index 1.460 Stability 1.Stabilization 2.Forbidden ligand strong oxidant, strong acid, acyl chloride, anhydride 3.Avoid heat in contact conditions 4.Hazardous Polymerization no polymerize Water solubility 10 g/L (20 ºC) Freezing point <-77℃ Molecular structure 1、Molar refraction index:40.89 2、Molar volume(cm3/mol):149.3 3、Parachor(90.2K):345.1 4、Surface tension(dyne/cm):28.5 5、Polarizability:16.21 Application: 【1】Mainly used as polyurethane rigid foam catalyst 【2】N, N-dimethylcyclohexylamine can be used in a wide range of rigid foams. One of the main applications is for insulating foams, including sprays, plates, laminated sheets and refrigeration formulations. N, N- dimethylcyclohexylamine is also suitable for the manufacture of rigid foam furniture frames and decorative parts. The catalyst can be used as the main catalyst alone, without adding organic tin, or supplemented with JD series catalyst according to the process and product requirements. It is also used as a rubber accelerator and as an intermediate in synthetic fibers. 【3】Used as dye intermediates, used for vanillin, azo dyes, triphenylmethane dyes, also can be used as solvents, stabilizers, analytical reagents and so on. Also used as a catalyst. Storage and transport information: 1.Store in a cool and ventilated warehouse. Keep away from fire and heat source. The storage temperature should not exceed 30℃. Keep container sealed. Should be stored separately with oxidizer, acid, etc., do not mix storage. Explosion-proof lighting and ventilation facilities are adopted. Do not use mechanical equipment and tools that may cause sparks. The storage area shall be equipped with leakage emergency treatment equipment and suitable storage materials. 2.Packed in iron drums, 50kg/ drum, 170kg/ drum. Flammable liquid <2>, sealed, stored in a cool place, away from fire source, fire transportation. Packaging: 200KG/ drum storage: It is recommended to store in dry and cool areas and properly ventilated. After the original packaging, please fasten the packaging cover as soon as possible to prevent moisture and other substances from mixing and affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change. Store contaminated clothes separately and reuse them after washing. Maintain good hygiene. Contact Us SHANGHAI OHANS CO., LTD. Factory Address :Jining High-tech Development Zone, Shandong, China Headquarters :Room a2110, building 55, No. 709, Lingshi Road, Zhabei District, Shanghai Technical support and business contacts E-mail:info@newtopchem.com More:https://www.ohans.com/nn-dimethylcyclohexylamine/
    Type
    New
    Price
    $10 (USD)
    Status
    In stock
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  • Grace Grace added new product for sale
    2023-06-25 01:52:13 -
    NT CAT PC-8 CAS No.:98-94-2 Synthesis method and application
    NT CAT PC-8 CAS No.:98-94-2 Synthesis method and application

    Brief introduction.
    Chemical Chinese name: N,N-dimethylcyclohexylamine
    Chemical English name: N,N-dimethylcyclohexylamine; dimethyl aminocy clohexane
    Chemical Alias: Dimethyl aminocyclohexane
    CAS No.: 98-94-2
    EC No.: 202-715-5
    Molecular formula: C8H17N

    Synthesis method.
    N,N-dimethylaniline catalytic chlorination method
    In 1904, Sabatier et al. carried out the gas-phase hydrogenation of N,N a dimethylamine at a temperature of 160-180°C and at atmospheric pressure to produce DMCHA.

    Phenol method
    This method uses Pd or Rh as the catalyst, and phenol dimethylamine and hydrogen as raw materials. For example, when Pd is the catalyst, the catalyst dosage is 0.2~0.5, and the process conditions are 60~150℃, hydrogen pressure 0.15~0.48MPa, reaction time 6h, and the yield is between 70~80%. The raw material is available, and the reaction conditions are mild, but the catalyst is made of precious metals, and the yield is low.

    Cyclohexylamine method
    The process also uses formaldehyde and formic acid to react with cyclohexylamine, or uses oxides of Bi, Sb, Mg, A1, Lu, etc. as catalysts to react cyclohexylamine with methanol to methylate cyclohexylamine to produce DMCHA. the disadvantage of this method is the low selectivity of the former reaction, and the yield of the later methylation is not high.

    Cyclohexanone method
    Among the methods for the synthesis of DMCHA, the reductive amination method using cyclohexanone as raw material has more advantages: high conversion, yield and selectivity. The processes using Pd/C catalyst or Cu-A1 catalyst have their own characteristics and are currently under development in China.

    Uses.
    [Use I] Mainly used as polyurethane hard foam catalyst
    [Use II] N,N-dimethylcyclohexylamine can be used in a wide range of rigid foams. N,N-Dimethylcyclohexylamine is also suitable for the manufacture of rigid foam furniture frames and decorative parts. It can be used as the main catalyst alone in rigid foam products without the addition of organotin, or it can be supplemented with JD series catalysts according to the process and product requirements. It is also used as intermediate of rubber accelerator and synthetic fiber.
    Use III】It is used as intermediate of dyestuff, used to make vanillin, azo dyestuff, triphenylmethane dyestuff, also can be used as solvent, stabilizer, analysis reagent, etc.. Also used as catalyst.

    Storage and transportation.
    Should be sealed and stored in a dry, cool and ventilated warehouse

    Package: 200KG/drum
    200KG/drum Storage: It is recommended to store in dry and cool area with proper ventilation. Please fasten the lid as soon as possible after original packaging to prevent the mixing of other substances such as moisture and other substances from affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change clothes. Store contaminated clothes separately and wash them before use. Maintain good hygiene habits.

    More:https://www.newtopchem.com/archives/40458
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    NT CAT PC-8 CAS No.:98-94-2 Synthesis method and application Brief introduction. Chemical Chinese name: N,N-dimethylcyclohexylamine Chemical English name: N,N-dimethylcyclohexylamine; dimethyl aminocy clohexane Chemical Alias: Dimethyl aminocyclohexane CAS No.: 98-94-2 EC No.: 202-715-5 Molecular formula: C8H17N Synthesis method. N,N-dimethylaniline catalytic chlorination method In 1904, Sabatier et al. carried out the gas-phase hydrogenation of N,N a dimethylamine at a temperature of 160-180°C and at atmospheric pressure to produce DMCHA. Phenol method This method uses Pd or Rh as the catalyst, and phenol dimethylamine and hydrogen as raw materials. For example, when Pd is the catalyst, the catalyst dosage is 0.2~0.5, and the process conditions are 60~150℃, hydrogen pressure 0.15~0.48MPa, reaction time 6h, and the yield is between 70~80%. The raw material is available, and the reaction conditions are mild, but the catalyst is made of precious metals, and the yield is low. Cyclohexylamine method The process also uses formaldehyde and formic acid to react with cyclohexylamine, or uses oxides of Bi, Sb, Mg, A1, Lu, etc. as catalysts to react cyclohexylamine with methanol to methylate cyclohexylamine to produce DMCHA. the disadvantage of this method is the low selectivity of the former reaction, and the yield of the later methylation is not high. Cyclohexanone method Among the methods for the synthesis of DMCHA, the reductive amination method using cyclohexanone as raw material has more advantages: high conversion, yield and selectivity. The processes using Pd/C catalyst or Cu-A1 catalyst have their own characteristics and are currently under development in China. Uses. [Use I] Mainly used as polyurethane hard foam catalyst [Use II] N,N-dimethylcyclohexylamine can be used in a wide range of rigid foams. N,N-Dimethylcyclohexylamine is also suitable for the manufacture of rigid foam furniture frames and decorative parts. It can be used as the main catalyst alone in rigid foam products without the addition of organotin, or it can be supplemented with JD series catalysts according to the process and product requirements. It is also used as intermediate of rubber accelerator and synthetic fiber. Use III】It is used as intermediate of dyestuff, used to make vanillin, azo dyestuff, triphenylmethane dyestuff, also can be used as solvent, stabilizer, analysis reagent, etc.. Also used as catalyst. Storage and transportation. Should be sealed and stored in a dry, cool and ventilated warehouse Package: 200KG/drum 200KG/drum Storage: It is recommended to store in dry and cool area with proper ventilation. Please fasten the lid as soon as possible after original packaging to prevent the mixing of other substances such as moisture and other substances from affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change clothes. Store contaminated clothes separately and wash them before use. Maintain good hygiene habits. More:https://www.newtopchem.com/archives/40458 Technical support and business contacts E-mail:info@newtopchem.com
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