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  • Iram Naaz compartilhou um link
    2025-06-08 10:41:02 - Traduzir -
    https://sites.google.com/view/erik-scherder-cbd-capsules/home
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  • Mayur Yadav compartilhou um link
    2025-05-16 12:35:58 - Traduzir -
    The global Fusion Biopsy Market, valued at USD 736.69 million in 2024, is poised for remarkable growth. As per market projections, it is expected to rise to USD 798.20 million in 2025 and further expand to USD 1,677.18 million by 2034, growing at a Compound Annual Growth Rate (CAGR) of 8.6% during the forecast period (2025–2034).

    This rapid market expansion reflects the increasing demand for precise, real-time cancer diagnostics, particularly for prostate cancer. Fusion biopsy, a revolutionary diagnostic imaging technique that merges MRI with ultrasound guidance, is becoming the gold standard in identifying suspicious lesions and improving the accuracy of prostate cancer detection.

    Market Overview
    Fusion biopsy has emerged as a pivotal advancement in the field of diagnostic imaging. Unlike traditional biopsy methods, which may yield false negatives due to their systematic nature, fusion biopsy integrates real-time ultrasound with pre-acquired magnetic resonance imaging (MRI), offering enhanced spatial resolution and anatomical detail. This results in more accurate targeting of suspicious areas within the prostate, improving diagnosis rates and reducing unnecessary procedures.

    The increasing prevalence of prostate cancer worldwide, advancements in imaging technology, rising awareness among patients, and supportive government initiatives for early cancer detection are collectively propelling market growth. The higher diagnostic precision offered by fusion biopsy has gained significant traction among urologists, radiologists, and healthcare providers.

    Key Market Growth Drivers
    1. Rising Incidence of Prostate Cancer
    Prostate cancer continues to be one of the most commonly diagnosed cancers in men globally. According to the World Health Organization (WHO), prostate cancer accounts for nearly 1.4 million new cases each year. The fusion biopsy technique plays a critical role in the early detection of clinically significant cancers, leading to timely and more effective treatment.

    2. Growing Adoption of Minimally Invasive Diagnostic Techniques
    There is a strong shift in the healthcare industry toward minimally invasive procedures that offer enhanced patient comfort, reduced recovery times, and improved diagnostic accuracy. Fusion biopsy fits perfectly into this paradigm, offering a minimally invasive yet highly precise diagnostic option that minimizes the risk of complications associated with conventional biopsy procedures.

    3. Technological Advancements in Imaging and Biopsy Devices
    Recent technological developments in imaging software, 3D mapping, and robotic-assisted biopsy systems have greatly enhanced the capabilities of fusion biopsy techniques. The integration of artificial intelligence (AI) and machine learning algorithms is also aiding in better image interpretation, further improving biopsy targeting and patient outcomes.

    4. Growing Investments in Healthcare Infrastructure
    Emerging economies across Asia-Pacific, Latin America, and the Middle East are increasingly investing in modern healthcare infrastructure. These investments include the procurement of advanced diagnostic tools such as MRI machines and fusion biopsy systems. This infrastructural push is likely to facilitate broader adoption of fusion biopsy techniques in previously underpenetrated markets.

    5. Supportive Regulatory Framework and Reimbursement Policies
    Health authorities in North America and Europe are increasingly recognizing the value of fusion biopsy in enhancing diagnostic accuracy and cost-effectiveness. Favorable reimbursement scenarios and the approval of innovative biopsy devices are encouraging hospitals and diagnostic centers to adopt these technologies on a larger scale.

    Browse Full Insights:
    https://www.polarismarketresearch.com/industry-analysis/fusion-biopsy-market
    The global Fusion Biopsy Market, valued at USD 736.69 million in 2024, is poised for remarkable growth. As per market projections, it is expected to rise to USD 798.20 million in 2025 and further expand to USD 1,677.18 million by 2034, growing at a Compound Annual Growth Rate (CAGR) of 8.6% during the forecast period (2025–2034). This rapid market expansion reflects the increasing demand for precise, real-time cancer diagnostics, particularly for prostate cancer. Fusion biopsy, a revolutionary diagnostic imaging technique that merges MRI with ultrasound guidance, is becoming the gold standard in identifying suspicious lesions and improving the accuracy of prostate cancer detection. Market Overview Fusion biopsy has emerged as a pivotal advancement in the field of diagnostic imaging. Unlike traditional biopsy methods, which may yield false negatives due to their systematic nature, fusion biopsy integrates real-time ultrasound with pre-acquired magnetic resonance imaging (MRI), offering enhanced spatial resolution and anatomical detail. This results in more accurate targeting of suspicious areas within the prostate, improving diagnosis rates and reducing unnecessary procedures. The increasing prevalence of prostate cancer worldwide, advancements in imaging technology, rising awareness among patients, and supportive government initiatives for early cancer detection are collectively propelling market growth. The higher diagnostic precision offered by fusion biopsy has gained significant traction among urologists, radiologists, and healthcare providers. Key Market Growth Drivers 1. Rising Incidence of Prostate Cancer Prostate cancer continues to be one of the most commonly diagnosed cancers in men globally. According to the World Health Organization (WHO), prostate cancer accounts for nearly 1.4 million new cases each year. The fusion biopsy technique plays a critical role in the early detection of clinically significant cancers, leading to timely and more effective treatment. 2. Growing Adoption of Minimally Invasive Diagnostic Techniques There is a strong shift in the healthcare industry toward minimally invasive procedures that offer enhanced patient comfort, reduced recovery times, and improved diagnostic accuracy. Fusion biopsy fits perfectly into this paradigm, offering a minimally invasive yet highly precise diagnostic option that minimizes the risk of complications associated with conventional biopsy procedures. 3. Technological Advancements in Imaging and Biopsy Devices Recent technological developments in imaging software, 3D mapping, and robotic-assisted biopsy systems have greatly enhanced the capabilities of fusion biopsy techniques. The integration of artificial intelligence (AI) and machine learning algorithms is also aiding in better image interpretation, further improving biopsy targeting and patient outcomes. 4. Growing Investments in Healthcare Infrastructure Emerging economies across Asia-Pacific, Latin America, and the Middle East are increasingly investing in modern healthcare infrastructure. These investments include the procurement of advanced diagnostic tools such as MRI machines and fusion biopsy systems. This infrastructural push is likely to facilitate broader adoption of fusion biopsy techniques in previously underpenetrated markets. 5. Supportive Regulatory Framework and Reimbursement Policies Health authorities in North America and Europe are increasingly recognizing the value of fusion biopsy in enhancing diagnostic accuracy and cost-effectiveness. Favorable reimbursement scenarios and the approval of innovative biopsy devices are encouraging hospitals and diagnostic centers to adopt these technologies on a larger scale. Browse Full Insights: https://www.polarismarketresearch.com/industry-analysis/fusion-biopsy-market
    WWW.POLARISMARKETRESEARCH.COM
    Fusion Biopsy Market Opportunity and Evaluation 2034
    Fusion Biopsy Market will grow from USD 798.20 Million to USD 1,677.18 Million by 2034, showing an impressive CAGR of 8.6%.
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  • Grace Grace adicionou um novo produto para vender
    2023-06-26 02:07:09 - Traduzir -
    AEEA 2-(2-aminoethylamino)ethanol CAS111-41-1
    Rm1104 ,No. 258, West SongXing Road, BaoShan District, Shanghai, China.
    AEEA 2-(2-aminoethylamino)ethanol CAS111-41-1
    AMINOETHYLETHANOLAMINE (AEEA)
    CAS: 111-41-1
    Overview:
    IUPAC name: 2-(2-aminoethylamino)ethanol
    Other Chimical Names: 2-(2-AMINOETHYLAMINO)ETHANOL;AMINOETHYLETHANOLAMIN;AMINOETHYLETHANOLAMINE;AMINOETHYETHANOLAMINE;AEEA;HYDROXYETHYL-ETHYLENEDIAMINE;LABOTEST-BB LTBB000455;N-HYDROXYETHYL-1,2-ETHANEDIAMINE
    MF: C4H12N2O
    MW: 104.15
    CAS: 111-41-1
    Physical and Chemical Properties:
    Physical state (25°C): viscous liquid
    Colour: Colorless
    Boiling point/range: 243°C/1013hPa
    Flash Point: 132℃/1013hPa
    Viscosity: 141mPa.s@20℃
    Relative density: 1.026g/cm3@25℃
    Solubility(ies): Water Soluble
    Features and uses:
    AMINOETHYLETHANOLAMINE (AEEA) CAS: 111-41-1 contains primary and secondary amines
    Linear molecular structure of groups. AEEA is a colorless liquid, have higher viscosity than ethylenediamine
    (EDA) and diethylenetriamine (DETA) . AMINOETHYLETHANOLAMINE (AEEA) has unique properties and is commonly used in the production of detergents, fabric softeners
    Chemical intermediates for agents, chelating agents, fuel additives and coatings.
    Storage Information:
    Store in a cool and ventilated warehouse. Keep away from fire and heat source. Keep out of direct sunlight. Keep the container sealed. It should be stored separately from oxidants and edible chemicals, and avoid mixed storage. Fire fighting equipment of corresponding variety and quantity shall be provided. The storage area shall be equipped with leakage emergency treatment equipment and suitable storage materials.
    Package:
    200KG/Plastic Bucket

    More:https://www.newtopchem.com/archives/39156
    Technical support and business contacts E-mail:info@newtopchem.com
    AEEA 2-(2-aminoethylamino)ethanol CAS111-41-1 AMINOETHYLETHANOLAMINE (AEEA) CAS: 111-41-1 Overview: IUPAC name: 2-(2-aminoethylamino)ethanol Other Chimical Names: 2-(2-AMINOETHYLAMINO)ETHANOL;AMINOETHYLETHANOLAMIN;AMINOETHYLETHANOLAMINE;AMINOETHYETHANOLAMINE;AEEA;HYDROXYETHYL-ETHYLENEDIAMINE;LABOTEST-BB LTBB000455;N-HYDROXYETHYL-1,2-ETHANEDIAMINE MF: C4H12N2O MW: 104.15 CAS: 111-41-1 Physical and Chemical Properties: Physical state (25°C): viscous liquid Colour: Colorless Boiling point/range: 243°C/1013hPa Flash Point: 132℃/1013hPa Viscosity: 141mPa.s@20℃ Relative density: 1.026g/cm3@25℃ Solubility(ies): Water Soluble Features and uses: AMINOETHYLETHANOLAMINE (AEEA) CAS: 111-41-1 contains primary and secondary amines Linear molecular structure of groups. AEEA is a colorless liquid, have higher viscosity than ethylenediamine (EDA) and diethylenetriamine (DETA) . AMINOETHYLETHANOLAMINE (AEEA) has unique properties and is commonly used in the production of detergents, fabric softeners Chemical intermediates for agents, chelating agents, fuel additives and coatings. Storage Information: Store in a cool and ventilated warehouse. Keep away from fire and heat source. Keep out of direct sunlight. Keep the container sealed. It should be stored separately from oxidants and edible chemicals, and avoid mixed storage. Fire fighting equipment of corresponding variety and quantity shall be provided. The storage area shall be equipped with leakage emergency treatment equipment and suitable storage materials. Package: 200KG/Plastic Bucket More:https://www.newtopchem.com/archives/39156 Technical support and business contacts E-mail:info@newtopchem.com
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    $10 (USD)
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  • Grace Grace adicionou um novo produto para vender
    2023-06-26 02:05:48 - Traduzir -
    TMG N,N,N,N-Tetramethylguanidine CAS No.: 80-70-6
    Rm1104 ,No. 258, West SongXing Road, BaoShan District, Shanghai, China.
    TMG N,N,N,N-Tetramethylguanidine CAS No.: 80-70-6

    N,N,N,N-Tetramethylguanidine
    CAS No.: 80-70-6

    Overview:
    Common Name: N,N,N,N-Tetramethylguanidine
    Other Chemical Names:
    N,N-Tetramethylguanidine;1,1,3,3-TetramethylGuanidine(TMG);1,1,3,3-Tetramethylgyanidine, 1,1,3,3-TetrChemicalbookamethylguanidine, ;N,N,N,N-Tetramethy1Guanidine; 1,1,3,3-Tetramethylguanidin; TMG; 1,1,3tetramethylguanidine
    MF:C5H13N3
    MW:115.18
    CAS:80-70-6

    Typical Properties

    Appearance Form: liquid
    Colour: light yellow
    PH 12.7 at 10 g/l at 25 °C
    Melting point/freezing point Melting point/range: -80 °C at 1,013 hPa
    Initial boiling point
    and boiling range 162 - 163 °C - lit.
    162 °C at 1,013 hPa
    Flash point 50 °C - closed cup
    Density 0.916g/cm3 at 20℃
    Vapour pressure 2.9 hPa at 20 °C


    Description
    In organic synthesis, 1,1,3,3-tetramethylguanidine is used as a strong, non-nucleophilic base. 1,1,3,3-tetramethylguanidine is an efficient and selective catalyst for alcohol benzoylation.
    Physical and chemical properties tetramethylguanidine is a colorless oily liquid, boiling point 160-162℃, density 0.918, refractive index 1.4692, is a strong organic base, soluble in toluene, cyclohexanone, ethanol, etc., also Chemicalbook soluble in water, easily hydrolyzed to tetramethyl urea in alkaline aqueous solution, corrosive, generally packed in galvanized iron drums.
    Applications
    NT CAT TMG can also be used as a catalyst for polyurethane foam and for even dyeing of nylon, wool and other proteins to improve the durability of wool, etc. It is mainly used in the synthesis of cefradine and other drugs.

    Storage Information
    NEWTOP Chemical recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products performance in the end use. The optimum storage temperature is between 10 °C and 30° C. Lower and higher storage temperatures are not preferable and should be avoided.

    Shelf Life:
    24 Months

    Standard Packaging:
    180KG Steel Drum
    900KG IBC Drum

    Sample contact:info@newtopchem.com
    More:https://www.newtopchem.com/archives/42570
    Technical support and business contacts E-mail:info@newtopchem.com
    TMG N,N,N,N-Tetramethylguanidine CAS No.: 80-70-6 N,N,N,N-Tetramethylguanidine CAS No.: 80-70-6 Overview: Common Name: N,N,N,N-Tetramethylguanidine Other Chemical Names: N,N-Tetramethylguanidine;1,1,3,3-TetramethylGuanidine(TMG);1,1,3,3-Tetramethylgyanidine, 1,1,3,3-TetrChemicalbookamethylguanidine, ;N,N,N,N-Tetramethy1Guanidine; 1,1,3,3-Tetramethylguanidin; TMG; 1,1,3tetramethylguanidine MF:C5H13N3 MW:115.18 CAS:80-70-6 Typical Properties Appearance Form: liquid Colour: light yellow PH 12.7 at 10 g/l at 25 °C Melting point/freezing point Melting point/range: -80 °C at 1,013 hPa Initial boiling point and boiling range 162 - 163 °C - lit. 162 °C at 1,013 hPa Flash point 50 °C - closed cup Density 0.916g/cm3 at 20℃ Vapour pressure 2.9 hPa at 20 °C Description In organic synthesis, 1,1,3,3-tetramethylguanidine is used as a strong, non-nucleophilic base. 1,1,3,3-tetramethylguanidine is an efficient and selective catalyst for alcohol benzoylation. Physical and chemical properties tetramethylguanidine is a colorless oily liquid, boiling point 160-162℃, density 0.918, refractive index 1.4692, is a strong organic base, soluble in toluene, cyclohexanone, ethanol, etc., also Chemicalbook soluble in water, easily hydrolyzed to tetramethyl urea in alkaline aqueous solution, corrosive, generally packed in galvanized iron drums. Applications NT CAT TMG can also be used as a catalyst for polyurethane foam and for even dyeing of nylon, wool and other proteins to improve the durability of wool, etc. It is mainly used in the synthesis of cefradine and other drugs. Storage Information NEWTOP Chemical recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products performance in the end use. The optimum storage temperature is between 10 °C and 30° C. Lower and higher storage temperatures are not preferable and should be avoided. Shelf Life: 24 Months Standard Packaging: 180KG Steel Drum 900KG IBC Drum Sample contact:info@newtopchem.com More:https://www.newtopchem.com/archives/42570 Technical support and business contacts E-mail:info@newtopchem.com
    Tipo
    Novo
    Preço
    $10 (USD)
    Status
    In stock
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  • Grace Grace adicionou um novo produto para vender
    2023-06-21 01:39:25 - Traduzir -
    NT CAT DMP-30 CAS: 90-72-2 Tris(dimethylaminomethyl)phenol
    Rm1104 ,No. 258, West SongXing Road, BaoShan District, Shanghai, China.
    NT CAT DMP-30 CAS: 90-72-2 Tris(dimethylaminomethyl)phenol

    Overview:
    DMP-30 CAS: 90-72-2 Tris(dimethylaminomethyl)phenol
    Common Name: Tris(dimethylaminomethyl)phenol
    Other Chemical Names:
    Tris(dimethylaminomethyl)phenol,2,4,6-;2,4,6-TRI(DIMETHYLAMINOETHYL)PHENOL;a,a',a''-Tris(dimethylamino)mesitol;ProChemicalbooktexNX3;TAP(aminophenol);VersamineEH30;Tris-(dimethylaminemethyl)phenol;2,4,6-TRIS(DIMETHYLAMINO-METHYL)PHENOL

    MF: C15H27N3O
    MW: 265.39
    CAS: 90-72-2

    Typical Properties
    Appearance Form: clear, viscous liquid
    Colour: light yellow
    Initial boiling point and boiling range 130 - 135 °C at 1 hPa - lit.
    Flash point 124 °C - closed cup
    Vapour density 9,16 - (Air = 1.0)
    Relative density 0,969 g/mL at 25 °C
    Viscosity 120~250


    Features and uses:

    NT CAT DMP-30 is a tertiary amine accelerator, commonly used in the production of epoxy resin and polyurethane products.
    NT CAT DMP-30 is commonly used in epoxy resin coatings, adhesives and other industries to accelerate the reaction in curing agent systems such as polyamide, polyether amine, anhydride, and reduce the reaction temperature.
    NT CAT DMP-30 addition amount accounts for 5-12% of the curing dose.

    Storage Information
    Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use. The optimum storage temperature is between 10 °C and 30 °C. Lower and higher storage temperatures are not preferable and should be avoided.

    Shelf Life: 24 months
    Standard Packaging:
    200KG Steel Drum
    1000KG IBC Drum
    (DABCO TMR-30, PC CAT NP30, K54)

    info@newtopchem.com
    More:https://www.newtopchem.com/archives/633
    Technical support and business contacts E-mail:info@newtopchem.com
    NT CAT DMP-30 CAS: 90-72-2 Tris(dimethylaminomethyl)phenol Overview: DMP-30 CAS: 90-72-2 Tris(dimethylaminomethyl)phenol Common Name: Tris(dimethylaminomethyl)phenol Other Chemical Names: Tris(dimethylaminomethyl)phenol,2,4,6-;2,4,6-TRI(DIMETHYLAMINOETHYL)PHENOL;a,a',a''-Tris(dimethylamino)mesitol;ProChemicalbooktexNX3;TAP(aminophenol);VersamineEH30;Tris-(dimethylaminemethyl)phenol;2,4,6-TRIS(DIMETHYLAMINO-METHYL)PHENOL MF: C15H27N3O MW: 265.39 CAS: 90-72-2 Typical Properties Appearance Form: clear, viscous liquid Colour: light yellow Initial boiling point and boiling range 130 - 135 °C at 1 hPa - lit. Flash point 124 °C - closed cup Vapour density 9,16 - (Air = 1.0) Relative density 0,969 g/mL at 25 °C Viscosity 120~250 Features and uses: NT CAT DMP-30 is a tertiary amine accelerator, commonly used in the production of epoxy resin and polyurethane products. NT CAT DMP-30 is commonly used in epoxy resin coatings, adhesives and other industries to accelerate the reaction in curing agent systems such as polyamide, polyether amine, anhydride, and reduce the reaction temperature. NT CAT DMP-30 addition amount accounts for 5-12% of the curing dose. Storage Information Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use. The optimum storage temperature is between 10 °C and 30 °C. Lower and higher storage temperatures are not preferable and should be avoided. Shelf Life: 24 months Standard Packaging: 200KG Steel Drum 1000KG IBC Drum (DABCO TMR-30, PC CAT NP30, K54) info@newtopchem.com More:https://www.newtopchem.com/archives/633 Technical support and business contacts E-mail:info@newtopchem.com
    Tipo
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    $10 (USD)
    Status
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  • Grace Grace adicionou um novo produto para vender
    2023-06-15 09:18:15 - Traduzir -
    PU catalyst: MB20 CAS#: 34364-26-6
    Rm1104 ,No. 258, West SongXing Road, BaoShan District, Shanghai, China.
    PU catalyst: MB20 CAS#: 34364-26-6

    Overview:
    Common Name: BISMUTH NEODECANOATE
    Other Chemical Names: Neodecanoicacid,bismuth(3+)salt;neodecanoicacid,bismuth(3++)salt;BISMUTHNEODECANOATE;BISMUTH(III)NEODECANOATE;bismuth(3+)neodecanoate;BISMUChemicalbookTHNEODECANOATE,TECH;Bismuth(III)neodecanoate,superconductorgrade~60%inneodecanoicacid(15-20%Bi);Bismuth(III)neodecanoate,superconductorgrade

    a) Appearance and Properties: Liquid
    Color: light yellow transparent
    b) Boiling point, initial boiling point and boiling range 180 °C
    c) Flash point 158 °C - closed cup
    d) Evaporation rate No data available
    e) Flammability (solid, gas) no data available
    f) high/low flammability or explosiveness limits no data available
    g) Vapor pressure 0.60mmHg at 21 °C
    h) Vapour density No data available
    i) Density/relative density 1.22 g/cm3 at 25 °C
    j) water soluble insoluble
    k)n-octanol/water partition coefficient no data available
    l) Autoignition temperature no data available
    m) Decomposition temperature no data available
    n) Viscosity 50mPa.s at 25 °C

    Features and uses:
    MB20 is used as a catalyst in the polyurethane industry, showing high catalytic activity, and is widely applicable to spray, high density elastomer, and microcellular elastomer systems. Has the following characteristics:
    A powerful gel catalyst to promote the completion of the reaction in the later stage;
    It shows that the viscosity of the system is delayed when the level of intermolecular reaction is low in the early stage of the reaction;
    Environmentally friendly products that can replace lead and tin-containing catalysts;
    In the common polyurethane reaction system, the microcellular elastomer system and the high-density semi-rigid foam system enhance the stability of the system reaction.
    Acts as a co-catalyst with a tertiary amine to accelerate the urethane reaction and cure. Exhibits delayed viscosity build on front-end at low usage level while promoting excellent back-end cure. It is free of mercury, lead and dibutyl tin. Possesses low volatility with little or no odor. It has compatibility with common rigid and flexible foam polyols.
    It is an alternative to tin-based catalysts in flexible slabstock, high-density flexible foams, spray, microcellular, and rigid foam systems.
    Storage Information
    Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use.
    Package:
    25kg/Plastic Drum, 200KG/Steel Drum, 1000kg/IBC Drum

    More:https://www.newtopchem.com/archives/39757
    PU catalyst: MB20 CAS#: 34364-26-6 Overview: Common Name: BISMUTH NEODECANOATE Other Chemical Names: Neodecanoicacid,bismuth(3+)salt;neodecanoicacid,bismuth(3++)salt;BISMUTHNEODECANOATE;BISMUTH(III)NEODECANOATE;bismuth(3+)neodecanoate;BISMUChemicalbookTHNEODECANOATE,TECH;Bismuth(III)neodecanoate,superconductorgrade~60%inneodecanoicacid(15-20%Bi);Bismuth(III)neodecanoate,superconductorgrade a) Appearance and Properties: Liquid Color: light yellow transparent b) Boiling point, initial boiling point and boiling range 180 °C c) Flash point 158 °C - closed cup d) Evaporation rate No data available e) Flammability (solid, gas) no data available f) high/low flammability or explosiveness limits no data available g) Vapor pressure 0.60mmHg at 21 °C h) Vapour density No data available i) Density/relative density 1.22 g/cm3 at 25 °C j) water soluble insoluble k)n-octanol/water partition coefficient no data available l) Autoignition temperature no data available m) Decomposition temperature no data available n) Viscosity 50mPa.s at 25 °C Features and uses: MB20 is used as a catalyst in the polyurethane industry, showing high catalytic activity, and is widely applicable to spray, high density elastomer, and microcellular elastomer systems. Has the following characteristics: A powerful gel catalyst to promote the completion of the reaction in the later stage; It shows that the viscosity of the system is delayed when the level of intermolecular reaction is low in the early stage of the reaction; Environmentally friendly products that can replace lead and tin-containing catalysts; In the common polyurethane reaction system, the microcellular elastomer system and the high-density semi-rigid foam system enhance the stability of the system reaction. Acts as a co-catalyst with a tertiary amine to accelerate the urethane reaction and cure. Exhibits delayed viscosity build on front-end at low usage level while promoting excellent back-end cure. It is free of mercury, lead and dibutyl tin. Possesses low volatility with little or no odor. It has compatibility with common rigid and flexible foam polyols. It is an alternative to tin-based catalysts in flexible slabstock, high-density flexible foams, spray, microcellular, and rigid foam systems. Storage Information Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use. Package: 25kg/Plastic Drum, 200KG/Steel Drum, 1000kg/IBC Drum More:https://www.newtopchem.com/archives/39757
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    $10 (USD)
    Status
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  • Grace Grace adicionou um novo produto para vender
    2023-06-15 09:17:52 - Traduzir -
    Pu catalyst: K-15 Active ingredients: CAS:3164-85-0
    Rm1104 ,No. 258, West SongXing Road, BaoShan District, Shanghai, China.
    Pu catalyst: K-15 Active ingredients: CAS:3164-85-0

    Overview:
    Common name: Potassium isooctanoate solution
    Other Chemical names:
    Potassium2-ethylhexanoate,99.9%(metalsbasis),75%w/wsoln.;PotassiuM2-ethylhexanote;PotassiuM2-Ethylhexanoatehydratate;KaliumOctoate;Potassium2-ethyChemicalbooklhexanoatesolution,75wt.%solution,99.9%tracemetalsbasis;2-ethyl-hexanoicacipotassiumsalt;2-ETHYLHEXANOICACIDPOTASSIUMSALT;POTASSIUM2-ETHYLHEXANOATE Solution


    Physical and chemical properties:
    Appearance: Liquid.
    Color: Colorless.
    Odor: No odor.
    Relative density: 1.13 (water=1)
    Vapor pressure: < 19.20 mmHg at 21 °C
    Density: 70.544 lb/ft3 (1.13 g/cm3) at 70 °F (21 °C)
    Point Boiling Point/Range: > 572 °F (> 300 °C)
    Flash point: 137.78 °C
    Viscosity: 6000~1200mPas(25 °C)
    Water solubility: completely dissolved.
    Product use: Polyurethane catalyst


    Features and uses:
    Used in the production of rigid isocyanate foams. 
    K-15 is a solution of potassium-salt in diethylene glycol. It promotes the isocyanate reaction and is used in a wide range of rigid foam applications. For better surface curing, improved adhesion and better flow alternatives, consider TMR-2 catalysts.
    K-15 is an excellent and cost-effective isocyanate catalyst. Its high conversion rate has established it as the catalyst of choice in a number of rigid applications.


    Storage Information
    Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use.

    Package:
    200KG/Steel Drum

    More:https://www.newtopchem.com/archives/555
    Pu catalyst: K-15 Active ingredients: CAS:3164-85-0 Overview: Common name: Potassium isooctanoate solution Other Chemical names: Potassium2-ethylhexanoate,99.9%(metalsbasis),75%w/wsoln.;PotassiuM2-ethylhexanote;PotassiuM2-Ethylhexanoatehydratate;KaliumOctoate;Potassium2-ethyChemicalbooklhexanoatesolution,75wt.%solution,99.9%tracemetalsbasis;2-ethyl-hexanoicacipotassiumsalt;2-ETHYLHEXANOICACIDPOTASSIUMSALT;POTASSIUM2-ETHYLHEXANOATE Solution Physical and chemical properties: Appearance: Liquid. Color: Colorless. Odor: No odor. Relative density: 1.13 (water=1) Vapor pressure: < 19.20 mmHg at 21 °C Density: 70.544 lb/ft3 (1.13 g/cm3) at 70 °F (21 °C) Point Boiling Point/Range: > 572 °F (> 300 °C) Flash point: 137.78 °C Viscosity: 6000~1200mPas(25 °C) Water solubility: completely dissolved. Product use: Polyurethane catalyst Features and uses: Used in the production of rigid isocyanate foams.  K-15 is a solution of potassium-salt in diethylene glycol. It promotes the isocyanate reaction and is used in a wide range of rigid foam applications. For better surface curing, improved adhesion and better flow alternatives, consider TMR-2 catalysts. K-15 is an excellent and cost-effective isocyanate catalyst. Its high conversion rate has established it as the catalyst of choice in a number of rigid applications. Storage Information Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use. Package: 200KG/Steel Drum More:https://www.newtopchem.com/archives/555
    Tipo
    Novo
    Preço
    $10 (USD)
    Status
    In stock
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