Accelerator TMTD is also used in the processing of rubber and in the blending of lubricant oils.
Accelerator TMTD can be found in products such as seed disinfectants, antiseptic sprays, animal repellents, insecticides, wood preservatives, some soaps, rodent repellents and as a nut, fruit and mushroom disinfectant.
Accelerator TMTD is primarily used as an accelerator in the vulcanization of rubber.
CAS Number: 137-26-8
Molecular Formula: C6H12N2S4
Molecular Weight: 240.43
EINECS Number: 205-286-2
Tetramethylthiuram disulfide, Thiuram, Rezifilm, TMTD, Pomarsol, Thirame, Arasan, Fernasan, Nobecutan, Thioscabin, Thirasan, Aapirol, Tersan, Tetrathiuram disulfide, Tetramethylthiuram, Falitiram, Formalsol, Hexathir, Kregasan, Mercuram, Normersan, Sadoplon, Spotrete, Tetrasipton, Thillate, Thiramad, Aatiram, Atiram, Fermide, Fernide, Hermal, Pomasol, Puralin, Thiosan, Thiotox, Thiulin, Thiulix, Heryl, Pomarsol forte, Methyl tuads, Accelerator T, Methyl Thiram, Fernasan A, Tetramethylthiuram disulphide, Nocceler TT, Arasan-M, Bis(dimethylthiocarbamoyl) disulfide, Thiram B, Arasan-SF, Cyuram DS, Ekagom TB, Hermat TMT, Tetramethylenethiuram disulfide, Accel TMT, Accelerator thiuram, Aceto TETD, Radothiram, Royal TMTD, Tetramethyl-thiram disulfid, Fernacol, Sadoplon 75, Tetramethylthiuram bisulfide, Tetrapom, Thioknock, Thirampa, Thiramum, Anles, Arasan-SF-X, Aules, Thimer, Panoram 75, Tetramethylthiouram disulfide, Tetramethylthiurane disulfide, Arasan 70, Arasan 75, Tersan 75, Thiram 75, Thiram 80, Spotrete-F, TMTDS, Arasan 70-S Red, Tetramethylthioperoxydicarbonic diamide, Methylthiuram disulfide, N,N-Tetramethylthiuram disulfide, Metiurac, Micropearls, Nomersan, Thianosan, Cunitex, Delsan, Thimar, Teramethylthiuram disulfide, Tersantetramethyldiurane sulfide, Pol-Thiuram, Arasan 42-S, Tetramethylthiurum disulfide, Disulfure de tetramethylthiourame, Tetrathiuram disulphide, Sranan-sf-X, Hy-Vic, SQ 1489, Chipco thiram 75, Bis(dimethyl-thiocarbamoyl)-disulfid, Orac TMTD, Tetramethylthioramdisulfide, Tetramethyldiurane sulphite, Thiotox (fungicide), Disulfide, bis(dimethylthiocarbamoyl), Bis((dimethylamino)carbonothioyl) disulfide, Fermide 850, Tetramethyl thiuramdisulfide, Tetramethylthiocarbamoyldisulphide, Thiuramyl, Thylate, Methyl thiuramdisulfide, Bis(dimethylthiocarbamyl) disulfide, Tetramethyl thiurane disulfide, Bis(dimethyl thiocarbamoyl)disulfide, Thirame [INN-French], Thiramum [INN-Latin], Thiuram D, Disolfuro di tetrametiltiourame, Tetramethyl thiurane disulphide, Tetramethylenethiuram disulphide, N,N'-(Dithiodicarbonothioyl)bis(N-methylmethanamine), RCRA waste number U244, Flo Pro T Seed Protectant, Tetramethylthiuram bisulphide, Tetramethylthiuran disulphide, Tetramethylthiurum disulphide, NSC-1771, Tetramethyl thiuram disulfide, alpha,alpha'-Dithiobis(dimethylthio)formamide, Thiotex, Thiurad, Tirampa, Tiuramyl, Trametan, Tridipam, Tripomol, Tyradin, Tuads, Tutan, Vulkacit mtic, N,N,N',N'-Tetramethylthiuram disulfide, N,N-Tetramethylthiuram disulphide, Vulkacit thiuram, Thioperoxydicarbonic diamide, tetramethyl-, Thiuram M, Vulkacit TH, Tetramethylthioramdisulfide [Dutch], Vulcafor TMT, Vulcafor TMTD, Bis((dimethylamino)carbonothioyl) disulfide, FMC 2070, Bis(dimethylthiocarbamoyl) disulphide, Tetramethyl-thiram disulfid [German], Formamide, 1,1'-dithiobis(N,N-dimethylthio-, Bis(dimethylaminothiocarbonyl)disulfide, Attack [Antifungal], Thiram [ISO], NSC59637, CCRIS 1282, HSDB 863, ENT 987, WLN: 1N1 & YUS & SSYUS & N1 & 1, NSC 1771, EINECS 205-286-2, NSC 49512, NSC 59637, RCRA waste no. U244, EPA Pesticide Chemical Code 079801, NSC 622696, BRN 1725821, tiramo, UNII-0D771IS0FH, Basultra, Betoxin, Tiradin, Accelerant T, AI3-00987, Ziram metabolite, Arasan m, Vulkazam S, Thioperoxydicarbonic diamide ([(H2N)C(S)]2S2), N,N,N',N'-tetramethyl-, Vanguard GF, Vancide TM, Akrochem TMTD, Perkacit TMTD, Vulkacit DTMT, Robac TMT, Rezifilm (TN), Arasan 50 red, Spotrete WP 75, MFCD00008325, Vancide TM-95, Naftocit thiuram 16, Spectrum_001687, Thiram (USAN/INN), Agrichem flowable thiram, THIRAM [HSDB], THIRAM [IARC], THIRAM [INCI], THIRAM [USAN], THIRAM [INN], Spectrum2_001554, Spectrum3_001592, Spectrum4_000860, Spectrum5_001653, THIRAM [WHO-DD], THIRAM [MI], THIRAM [MART.], bmse000928, EC 205-286-2, NCIMech_000272, cid_5455, NCIOpen2_007854, SCHEMBL21144, BSPBio_003184, KBioGR_001499, KBioSS_002167, 4-04-00-00242 (Beilstein Handbook Reference), BIDD:ER0359, DivK1c_000741, SPECTRUM1503322, SPBio_001428, CHEMBL120563, Thiram [USAN:INN:BSI:ISO], BDBM43362, HMS502F03, KBio1_000741, KBio2_002167, KBio2_004735, KBio2_007303, KBio3_002684, KUAZQDVKQLNFPE-UHFFFAOYSA-, ENT-987, NINDS_000741, HMS1922A12, HMS2093E03, HMS2234B08, HMS3374C05, Pharmakon1600-01503322, Tetramethylthiuram disulfide, 97%, Tox21_111150, Tox21_201569, Tox21_301102, NSC758454, s2431, (dimethylamino){[(dimethylamino)thioxomethyl]disulfanyl}methane-1-thione, AKOS000120200, bis (dimethyl thiocarbamoyl) disulfide, Bis(dimethylaminothiocarbonyl)disulfide, Tox21_111150_1, bis(dimethylaminothiocarbonyl) disulfide, DB13245, KS-5354, NSC-758454, IDI1_000741, QTL1_000082, NCGC00091563-02, NCGC00091563-03, NCGC00091563-04, NCGC00091563-05, NCGC00091563-06, NCGC00091563-07, NCGC00091563-08, NCGC00091563-09, NCGC00091563-10, NCGC00091563-12, NCGC00255002-01, NCGC00259118-01, NCI60_001477, NCI60_006736, SBI-0051813.P002, Thiram, PESTANAL(R), analytical standard, B0486, CS-0012858, FT-0631799, EN300-16677, D06114, D97716, AB00052345_10, Q416572, SR-01000736911, J-006992, J-524968, SR-01000736911-2, Thiram, certified reference material, TraceCERT(R), BRD-K29254801-001-06-3, Z56754480, F0001-0468, TETRAMETHYLTHIOPEROXYDICARBONIC ACID [(H2N)C(S)]2S2, N,N-Dimethyl[(dimethylcarbamothioyl)-disulfanyl]carbothioamide, 1-(dimethylthiocarbamoyldisulfanyl)-N,N-dimethyl-methanethioamide, N,N-dimethylcarbamodithioic acid (dimethylthiocarbamoylthio) ester.
Accelerator TMTD formulations often involve a combination of accelerators to control the vulcanization process more precisely.
Chlorination of Accelerator TMTD affords the thiocarbamoyl chloride.
Accelerator TMTD is used as a fungicide, bacteriostat and pesticide.
Vulcanization is a process that imparts strength, elasticity, and durability to rubber by cross-linking the polymer chains.
During the vulcanization process, Accelerator TMTD helps to initiate the cross-linking reactions between rubber molecules.
This leads to the formation of a three-dimensional network, improving the mechanical properties of the rubber, such as tensile strength and resilience.
One of the major applications of Accelerator TMTD is in the production of tires.
Accelerator TMTD is used alongside other accelerators and curing agents in the rubber compounding process to achieve the desired properties in the final tire product.
In addition to tires, Accelerator TMTD is used in the manufacturing of various rubber goods, including conveyor belts, hoses, seals, and footwear.
The chemical formula of Accelerator TMTD is (CH3)2NCS2.
Accelerator TMTD contains sulfur atoms, and its molecular structure is characterized by two thiuram groups.
Accelerator TMTD is known for providing relatively fast acceleration during vulcanization, making it suitable for applications where a rapid curing process is desired.
Further research may identify additional product or industrial usages of Accelerator TMTD.
Accelerator TMTD combination is often chosen to achieve specific curing characteristics in rubber compounds.
This includes controlling the speed of the vulcanization process, optimizing scorch time (the time it takes for the rubber to start curing), and ensuring the final product meets the desired specifications.
One of the advantages of using TM/ETD together is the reduction in scorch time.
Scorch time is the time it takes for the rubber compound to start curing at a certain temperature.
The combination can help prevent premature curing during processing.
The combination of Accelerator TMTD can result in synergistic effects, where their combined action enhances the overall performance of the vulcanization process.
This synergy allows for improved efficiency in achieving the desired properties in the final rubber product.
Accelerator TMTD accelerators are sensitive to temperature, and the combination allows for the adjustment of the vulcanization temperature range.
This can be crucial in industries where temperature control during processing is a key consideration.
Accelerator TMTD combinations are often compatible with other rubber additives, such as accelerators, activators, and fillers.
This compatibility allows for the fine-tuning of rubber formulations to meet specific performance requirements.
Accelerator TMTD in combination with other accelerators to create versatile formulations that suit different applications.
The choice of accelerators depends on factors such as the type of rubber, intended use of the final product, and processing conditions.
Accelerator TMTD combination is used in a variety of rubber applications, including tire manufacturing, industrial rubber goods, and consumer products.
The choice of accelerator combination is often optimized for the specific requirements of each application.
Accelerator TMTD combination is employed in various rubber applications, including the manufacturing of tires, belts, hoses, seals, and other molded rubber products.
Accelerator TMTD are compatible with a range of rubber polymers, and the combination allows for flexibility in formulating rubber compounds with different base polymers.
Industries using Accelerator TMTD need to adhere to regulatory standards regarding their production, handling, and use.
Compliance ensures the safety of workers and the quality of the final rubber products.
Accelerator TMTD is a very active, sulfur-bearing, non-discoloring organic accelerator.
Accelerator TMTD is a rubber chemieal, an accelerator of vulcanization.
Accelerator TMTD represents the most commonly positive allergen contained in the "thiuram mix".
Rubber producers carefully control the dosage and combination of accelerators to ensure consistent quality in their products.
Quality control measures help maintain the desired physical and mechanical properties of the rubber.
Ongoing research in the rubber industry continues to explore new accelerator combinations, including alternatives to traditional accelerators, with the aim of improving performance, reducing environmental impact, and meeting evolving industry standards.
The most frequent occupational categories are the metal industry, homemakers, health services and laboratories, building industries, and shoemakers.
Accelerator TMTDs are a class of organosulfur compounds with the formula (R2NCSS)2.
Many examples are known, but popular ones include R = Me and R = Et.
They are disulfides obtained by oxidation of the dithiocarbamates.
Accelerator TMTDs are used in sulfur vulcanization of rubber as well as in the manufacture of pesticides and drugs.
Accelerator TMTD contains 12.1% available sulfur and can be activated by thiazoles and sulfenamides.
Accelerator TMTD is also used in nitrile rubber, SBR and EPDM.
Accelerator TMTD refers to the use of these two chemical compounds as accelerators in rubber vulcanization.
They are typically white or pale yellow solids that are soluble in organic solvents.
An organic disulfide that results from the formal oxidative dimerisation of Accelerator TMTD.
Accelerator TMTD is widely used as a fungicidal seed treatment.
Accelerator TMTD is designed to give non-blooming cures in EV and semi-EV systems.
Typical oxidants employed include chlorine and hydrogen peroxide:
2 R2NCSSNa + Cl2 → (R2NCSS)2 + 2 NaCl
Accelerator TMTDs react with Grignard reagents to give esters of dithiocarbamic acid, as in the preparation of methyl dimethyldithiocarbamate:
[Me2NC(S)S]2 + MeMgX → Me2NC(S)SMe + Me2NCS2MgX
Accelerator TMTDs feature planar dithiocarbamate subunits and are linked by an S−S bond of 2.00 Å.
The C(S)−N bond is short (1.33 Å), indicative of multiple bonding.
The dihedral angle between the two dithiocarbamate subunits approaches 90°.
Accelerator TMTD are weak oxidants.
They can be reduced to dithiocarbamates.
Treatment of a Accelerator TMTD, or with cyanide salts, yields the corresponding thiuram sulfide:
(R2NCSS)2 + PPh3 → (R2NCS)2S + SPPh3
Accelerator TMTD are members of the thiuram class of accelerators and are commonly used in the rubber industry to promote the vulcanization process.
Accelerator TMTD is used to achieve a balanced vulcanization process with desirable properties in the final rubber product.
This combination allows rubber manufacturers to tailor the curing characteristics, such as curing rate and scorch time, to meet the specific requirements of different rubber formulations.
Accelerator TMTD can exhibit synergistic effects, where the overall acceleration performance is greater than the sum of the
Melting point: 156-158 °C(lit.)
Boiling point: 129 °C (20 mmHg)
Density: 1.43
vapor pressure: 8 x 10-6 mmHg at 20 °C (NIOSH, 1997)
refractive index: 1.5500 (estimate)
Flash point: 89°C
storage temp.: under inert gas (argon)
solubility: 0.0184g/l
form: solid
pka: 0.87±0.50(Predicted)
Water Solubility: 16.5 mg/L (20 ºC)
Merck: 14,9371
BRN: 1725821
Exposure limits NIOSH REL: TWA 0.5 mg/m3, IDLH 100 mg/m3; OSHA PEL: 0.5 mg/m3; ACGIH TLV: TWA 5 mg/m3.
InChIKey: KUAZQDVKQLNFPE-UHFFFAOYSA-N
LogP: 1.730
Accelerator TMTD is a blend of tetramethyl thiuram disulfide (60%) and tetraethyl thiuram disulfide (40%).
Accelerator TMTD exhibits excellent dispersibility and requires zinc oxide and fatty acid.
Accelerator TMTD deteriorates on prolonged exposure to heat, air or moisture.
Accelerator TMTD values are estimated as 128 days, 18 days and 9 hours at pH 4, 7 and 9, respectively (PM).
The Accelerator TMTD is stable in alkaline media but unstable in acidic conditions, decomposing to dimethylamine and carbon disulfide.
Accelerator TMTDs have been used as rubber components: Accelerator TMTD is used as a rubber accelerator and vulcanizer; a seed, nut, fruit, and mushroom disinfectant; a bacteriostat for edible oils and fats; and as an ingredient in suntan and antiseptic sprays and soaps.
Rubber processing conditions, such as temperature and time, are influenced by the choice and combination of accelerators.
Accelerator TMTD is selected to provide a favorable balance between processing time, curing rate, and scorch resistance.
Rubber compounders have the flexibility to adjust the ratio of Accelerator TMTD based on the specific requirements of the rubber formulation.
Ongoing research in rubber chemistry explores not only the efficiency of accelerator combinations but also their environmental impact.
The rubber industry is actively seeking sustainable practices, and this includes the investigation of alternative accelerators and vulcanization systems.
Accelerator TMTD is also used as a fungicide, rodent repellent; wood preservative; and may be used in the blending of lubricant oils.
Accelerator TMTD is decomposed in acidic media.
In water, the Accelerator TMTD can be oxidatively degraded to a number of products.
The rate of degradation depends on pH and the type of any cations that might be present.
The Accelerator TMTD allows rubber manufacturers to adjust the vulcanization rate.
This is important for optimizing processing times and ensuring efficient production in various manufacturing processes.
Accelerator TMTD combinations are employed in the formulation of specialty rubber compounds, where specific curing characteristics and properties are required.
This includes applications in which precise control over the vulcanization process is critical.
In tire manufacturing, the TM/ETD combination may be used in the formulation of tread compounds.
The accelerators contribute to the rapid and controlled vulcanization of the rubber, enhancing the performance and durability of the tire tread.
Accelerator TMTD can contribute to improved resistance to oil and heat in the final rubber product.
This is particularly important in applications where the rubber material is exposed to challenging environmental conditions.
Accelerator TMTD is chosen to provide processing stability during the production of rubber compounds.
This ensures that the vulcanization process can be effectively controlled without compromising the stability of the rubber during processing.
Rubber products vulcanized with the Accelerator TMTD combination may exhibit enhanced aging properties.
The accelerated vulcanization process contributes to the development of a robust rubber matrix that withstands environmental factors over an extended period.
Accelerator TMTD combination adhere to industry standards and specifications to ensure the compatibility and performance of rubber products.
Accelerator TMTD combination is often used in conjunction with sulfur as part of the vulcanization system.
The interaction between accelerators and sulfur is carefully balanced to achieve the desired curing characteristics and final product properties.
In certain adhesive formulations involving rubber, the Accelerator TMTD combination may be employed to modify the curing characteristics and enhance the performance of the adhesive.
This is particularly relevant in applications where strong and durable bonds are required.
Accelerator TMTD helps control the cross-link density of the polymer matrix.
This has implications for the mechanical and elastic properties of the rubber, influencing its performance in various applications.
The rubber industry continues to explore new combinations of accelerators, including those involving Accelerator TMTD, to address evolving needs, improve efficiency, and align with sustainable practices.
Accelerator TMTD combination plays a crucial role in controlling the physical properties of vulcanized rubber.
These properties include hardness, tensile strength, elongation at break, and tear resistance.
The careful selection and dosage of accelerators contribute to achieving the desired balance in these characteristics.
Accelerator TMTD can contribute to improvements in dynamic properties, such as resilience and fatigue resistance, in vulcanized rubber.
This is important in applications where the rubber is subjected to repeated or cyclic stress.
Accelerator TMTD flexibility allows for customization of rubber compounds for different applications.
Accelerator TMTD, which are potentially carcinogenic compounds, can form during the vulcanization process involving certain accelerators.
Accelerator TMTD combination is often chosen, in part, to help reduce the formation of nitrosamines, enhancing the safety profile of the final rubber products.
Accelerator TMTD combination is compatible with a variety of rubber types, including natural rubber and various synthetic rubbers.
This versatility makes it applicable to a wide range of rubber formulations used in diverse industries.
Accelerator TMTD accelerators may be used in the vulcanization of rubber used in wire and cable insulation.
The vulcanization process ensures that the rubber insulation provides electrical insulation, mechanical strength, and durability.
Accelerator TMTD are often used in combination with sulfur to form an efficient vulcanization system.
This combination contributes to the formation of cross-links in the rubber matrix, resulting in the desired physical and mechanical properties.
Accelerator TMTD combination may exhibit improved resistance to aging, including resistance to heat, oxygen, and other environmental factors.
This is particularly advantageous in applications where rubber products are exposed to challenging conditions over time.
Accelerator TMTD combinations are chosen based on the desired balance of curing time, scorch resistance, and final product properties.
Accelerator TMTDs are prepared by oxidizing the salts of the corresponding dithiocarbamates (e.g. sodium diethyldithiocarbamate).
Production method Of Accelerator TMTD:
The preparation of sodium dimethyl dithiocarbamate(SDD): the reaction of dimethylamine hydrochloride and carbon disulfide in the presence of sodium hydroxide can generate sodium dimethylamino dithiocarbamate.
The reaction temperature is 50~55℃ and the pH value is 8~9.
The preparation of thiram: the reaction of SDD (or Diram) and hydrogen peroxide in the presence of sulfuric acid can produce thiram.
The reaction temperature is controlled at 10 ℃ below and the end pH value is 3 to 4.
Chlorine can also be used instead of hydrogen peroxide and sulfuric acid.
The reaction is performed in the sieve tray tower, from the bottom of which the diluted chlorine is introduced and from the top of which 5% sodium solution is sprayed, which is called chlorine-air oxidation method.
There are also other methods, such as sodium nitrite oxidation or electrolytic oxidation.
Uses Of Accelerator TMTD:
Accelerator TMTD combination is widely used in the production of tires.
Accelerator TMTD is used in seed treatments alone or in combination with added insecticides or fungicides to control damping off diseases such as Pythium spp., and other diseases like Fusarium spp. of maize, cotton, cereals, legumes, vegetables and ornamentals.
Rubber components used in agriculture, such as conveyor belts and seals, may undergo vulcanization with the Accelerator TMTD combination.
This ensures that the rubber parts can withstand the harsh conditions encountered in agricultural operations.
Certain rubber components used in the oil and gas industry, such as seals and gaskets, may undergo vulcanization using accelerators like Accelerator TMTD.
This is to ensure that the rubber parts can withstand the demanding conditions of oil and gas applications.
In the manufacturing of vibration control products, such as mounts and isolators, the Accelerator TMTD combination may be used to enhance the properties of rubber components.
The vulcanization process improves the durability and performance of Accelerator TMTD.
Rubber compounds with the Accelerator TMTD combination may find applications in medical and healthcare products.
For example, rubber components in medical devices, gloves, or healthcare equipment may undergo vulcanization to ensure reliability and safety.
Rubber components used in rail transportation, such as seals and gaskets, may undergo vulcanization with accelerators like Accelerator TMTD.
This ensures the durability and reliability of rubber parts in the challenging conditions of rail applications.
Rubber components used in water treatment equipment, such as seals and gaskets, may benefit from the Accelerator TMTD combination during vulcanization.
This enhances the chemical resistance and durability of rubber parts in water treatment applications.
Seals and gaskets in various industrial equipment, including pumps, valves, and machinery, may undergo vulcanization using the Accelerator TMTD combination.
This enhances the sealing properties and longevity of these rubber components.
Accelerator TMTD belongs to protective fungicides of broad spectrum, with a residual effect period of up to 7d or so.
Accelerator TMTD is mainly used for dealing with seeds and soil and preventing powdery mildew, smut and rice seedlings damping-off of cereal crops.
Accelerator TMTD can also be used for some fruit trees and vegetable diseases.
For example, dressing seed with 500g of 50% wettable powder can control rice blast, rice leaf spot, barley and wheat smut.
As pesticides, Accelerator TMTD is often referred to as thiram and is mainly used for the treatment of seeds and soil and the prevention and controlling of cereal powdery mildew, smut and vegetable diseases.
Accelerator TMTD, as the super accelerator of natural rubber, synthetic rubber and latex, is often referred to as accelerator TMTD and is the representative of thiuram vulcanization accelerator, accounting for 85% of the total amount of similar products.
Accelerator T is also the super accelerator of natural rubber, diene synthetic rubber, Ⅱ, R and EPDM, with the highest utilization rate of all.
The vulcanization promoting force of accelerator T is very strong, but, without the presence of zinc oxide, it is not vulcanized at all.
Accelerator TMTD is used for the manufacture of cables, wires, tires and other rubber products.
Accelerator TMTD is used as the super accelerator of natural rubber, synthetic rubber and latex.
Accelerator TMTD is used as the late effect promoter of natural rubber, butadiene rubber, styrene-butadiene rubber and polyisoprene rubber.
Accelerator TMTD is used for the pest control of rice, wheat, tobacco, sugar beet, grapes and other crops, as well as for the seed dressing and soil treatment.
Accelerator TMTD is suitable for the manufacture of natural rubber, synthetic rubber and latex, and can also be used as curing agent.
Accelerator TMTD is the second accelerator of thiazole accelerators, which can be used with other accelerators as the continuous vulcanization accelerator.
Accelerator TMTD can be used as the super-vulcanization accelerator, and aften used with thiazole accelerator.
Vulcanization accelerators play a key role in ensuring that tires have the necessary strength, elasticity, and heat resistance for safe and reliable performance on vehicles.
Various industrial rubber products, including belts, hoses, seals, gaskets, and other molded rubber components, utilize the Accelerator TMTD combination during vulcanization.
This enhances the mechanical properties of these goods, making them suitable for diverse industrial applications.
Rubber components in automobiles, such as engine mounts, seals, and gaskets, often undergo vulcanization with accelerators like Accelerator TMTD.
This ensures the durability and performance of these rubber parts in the challenging conditions of automotive use.
Rubber used for insulation in wires and cables can benefit from the Accelerator TMTD during vulcanization.
The process enhances the electrical insulation properties and mechanical strength of rubber, making it suitable for use in various electrical applications.
Accelerator TMTD may be employed in the vulcanization of rubber soles and components used in the footwear industry.
This ensures the production of durable and resilient shoe soles.
Accelerator TMTD combination can be used to modify the curing characteristics and improve the adhesive properties.
This is important in applications where strong and durable bonds are required.
For slowly decomposing out of free sulfur at more than 100 ℃, it can be used as curing agent too. Its products have excellent resistance to aging and heat, so it is applicable to natural rubber, synthetic rubber and is mainly used in the manufacture of tires, tubes, shoes, cables and other industrial products.
In agriculture, Accelerator TMTD can be used as fungicide and insecticide, and it can also be used as lubricant additives.
Production methods from Accelerator TMTD, carbon disulfide, ammonia condensation reaction was dimethyl dithiocarbamate, and then by the oxidation of hydrogen peroxide to the finished product.
Accelerator TMTD is a protective fungicide applied to foliage to control Botrytis spp.
Accelerator TMTD also controls rust on ornamentals, scab and storage diseases on apple and pear and leaf curl and Monilia on stone fruit.
Accelerator TMTD can also be used in combination with other accelerators as the continuous rubber accelerator.
Rubber products used in the mining industry, such as conveyor belts and seals, may undergo vulcanization with accelerators like Accelerator TMTD.
This ensures the durability and reliability of rubber components in mining applications.
Rubber components used in the electronics industry, such as gaskets and seals for electronic devices, may undergo vulcanization using the Accelerator TMTD combination.
This contributes to the reliability and protection of electronic components.
Rubberized fabrics and components used in the textile industry may undergo vulcanization with the Accelerator TMTD combination.
This ensures the durability and performance of rubberized materials in textile applications.
Accelerator TMTD combination is often used in research and development efforts within the rubber industry.
Accelerator TMTD serves as a reference or benchmark accelerator in studies aimed at developing new rubber formulations or exploring alternative accelerators.
Accelerator TMTD is used as fungicide; bacteriostat; pesticide; rubber vulcanization accelerator; scabicide; seed disinfectant; animal repellent; insecticide; lube-oil additive; wood preservative; in antiseptic sprays; in the blending of lubrieant oils; used against Botrytis, rusts and downy mildews; seed dressing against "damping off' and verticillium wilt; ethanol antagonist and deterrent in mixtures of the methyl, ethyl, propyl, and butyl derivatives; antioxidant in polyolefin plastics; peptizing agent in polysulphide elastomers; in soaps and rodent repellents; nut, fruit, and mushroom disinfectant.
Accelerator TMTD is used in agriculture to prevent fungal diseases in seed and crops.
Accelerator TMTD has other applications ranging from use as a topical bactericide to animal repellent.
Accelerator TMTD is used as a fungicide to prevent crop damage in the field and to prevent crops from deterioration in storage or transport.
Accelerator TMTD is also used as a seed, nut, fruit, and mushroom disinfectant from a variety of fungal diseases.
In addition, Accelerator TMTD is used as an animal repellent to protect fruit trees and ornamentals from damage by rabbits, rodents, and deer.
Accelerator TMTD has been used in the treatment of human scabies, as a sun screen, and as a bactericide applied directly to the skin or incorporated into soap.
Accelerator TMTD is used as a rubber accelerator and vulcanizer and as a bacteriostat for edible oils and fats.
Rubberized materials used in construction, such as seals, gaskets, and other components, may undergo vulcanization with accelerators like Accelerator TMTD.
This enhances the durability and performance of rubber products in construction applications.
Accelerator TMTD combination is employed in the formulation of specialty rubber compounds where specific curing characteristics and properties are required.
In the manufacturing of foam rubber products, such as cushions and padding, the Accelerator TMTD may be used as accelerators in the vulcanization process to impart the necessary properties for comfort and resilience.
Rubber components in various consumer goods, such as toys, sporting equipment, and household items, may undergo vulcanization using the Accelerator TMTD combination to ensure the desired properties and durability.
Accelerator TMTD is also used as a rodent repellent, wood preservative, and may be used in the blending of lubricant oils.
The tetramethyl derivative, known as Accelerator TMTD, is a widely used fungicide.
The tetraethyl derivative, known as Accelerator TMTD, is commonly used to treat chronic alcoholism.
Safety Profile Of Accelerator TMTD:
Poison by ingestion and intraperitoneal routes.
Mutation data reported, Affects human pulmonary system.
Accelerator TMTD a rmld allergen and irritant.
Acute poisoning in experimental animals produced liver, hdney, and brain damage.
Questionable carcinogen with experimental tumorigenic and teratogenic data.
Other experimental reproductive effects.
Toxic effects of thiram have been described in humans and animal model systems ranging from liver injury, testicular toxicity, ophthalmological changes, and development of micronuclei in bone marrow.
However, the mechanisms of these effects are not characterized and inconsistent across various studies.
Accelerator TMTD appears to result from its potential to disrupt cellular defense mechanisms against oxidative stress.
In cultured human skin fibroblast, Accelerator TMTD results in an increase in oxidative markers such as lipid peroxidation and oxidation of reduced glutathione and decrease in other endogenous antioxidant.