(asking as a fellow chemist) what is your research about??
I'm trying to design a new class of plastics that behave like polyethylene but can be chemically degraded like PET
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Tetrahydrofuran Prices | Pricing | Trend | News | Database | Chart | Forecast
Tetrahydrofuran (THF) prices is a versatile organic solvent widely used in various industrial applications, including the production of polymers, pharmaceuticals, and as a reaction medium in chemical processes. The pricing of THF can be influenced by multiple factors that affect its availability and production costs. Understanding these factors is crucial for businesses and consumers looking to manage their budgets effectively.
One of the primary drivers of THF prices is the raw materials used in its production. THF is commonly synthesized from butadiene, which is derived from petroleum. Fluctuations in oil prices directly impact the cost of butadiene, thereby affecting the overall cost of THF. When oil prices rise, the cost of butadiene typically follows suit, leading to higher prices for THF. Conversely, a drop in oil prices can result in a decrease in THF prices. This direct correlation makes monitoring oil market trends essential for forecasting THF pricing.
Another significant factor influencing THF prices is the supply and demand dynamics in the market. As industries expand and demand for THF grows, the price can increase due to higher demand for the solvent. Conversely, if the market experiences a surplus of THF or if alternative solvents become more popular, prices may decrease. Seasonal variations and geopolitical events can also play a role in influencing supply and demand, thereby impacting THF prices.
Get Real Time Prices for Tetrahydrofuran: https://www.chemanalyst.com/Pricing-data/tetrahydrofuran-1213
Production costs associated with THF also contribute to its pricing structure. Advances in production technology and efficiencies can lead to cost reductions, potentially lowering THF prices. However, any disruptions in production, whether due to technical issues, environmental regulations, or supply chain interruptions, can lead to increased costs and higher prices. Manufacturers continuously seek to optimize production processes to maintain competitive pricing while ensuring product quality.
Regulatory factors also play a critical role in determining THF prices. Environmental regulations regarding the handling and disposal of chemicals can impact production costs. Compliance with these regulations often requires additional investment in safety measures and waste management, which can increase the cost of producing THF. Furthermore, changes in regulatory policies or the introduction of new standards can affect pricing, as companies may need to adapt to new requirements or incur additional expenses.
Market competition among THF producers can influence pricing as well. In a competitive market, producers may engage in price wars to gain market share, leading to lower prices for consumers. However, in a less competitive market or when a few dominant players control the supply, prices may remain high due to reduced competitive pressure. Monitoring market trends and competitor actions can provide valuable insights into potential pricing changes.
The global nature of the THF market also impacts pricing. International trade and transportation costs can influence the final price of THF in different regions. Import and export regulations, tariffs, and shipping costs contribute to the overall cost of THF. For companies sourcing THF from international suppliers, fluctuations in currency exchange rates can also affect pricing. Companies operating in multiple regions need to consider these factors when evaluating THF costs and budgeting accordingly.
Consumer preferences and technological advancements can also affect THF prices. As new applications for THF emerge and technological innovations improve production methods, the demand for THF may shift, impacting prices. Additionally, shifts in consumer preferences toward more sustainable or environmentally friendly products can drive demand for THF alternatives, potentially influencing pricing dynamics in the THF market.
In summary, the pricing of tetrahydrofuran is influenced by a complex interplay of factors, including raw material costs, supply and demand dynamics, production expenses, regulatory considerations, market competition, global trade influences, and technological advancements. For businesses and consumers looking to manage THF-related costs effectively, staying informed about these factors and monitoring market trends is essential. By understanding the various elements that impact THF prices, stakeholders can make more informed decisions and better navigate the fluctuations in the THF market.
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The use and precautions of tetrahydrofuran
Tetrahydrofuran, also known as THF, is a colorless, sweet-tasting liquid commonly used in various industries. Its chemical formula is C4H8O and it is a versatile solvent with a variety of industrial applications. In this article, we will discuss the different uses and considerations of THF.
4 uses of tetrahydrofuran
Pharmaceutical industry: Tetrahydrofuran is commonly used as a solvent and reaction medium in the pharmaceutical industry. Used in the production of a variety of drugs including antibiotics, hormones and antihistamines.
Polymer Industry: Tetrahydrofuran is also used as a solvent in the polymer industry. It is used to dissolve polymers such as polyvinyl chloride (PVC) and polystyrene. It is also used as a component in some polymerization reactions.
Chemical industry: Tetrahydrofuran is used as a reactant in chemical synthesis reactions. It is used in the production of various chemicals such as adipic acid, hexamethylene diisocyanate (HDI) and gamma-butyrolactone.
Laboratory Research: Tetrahydrofuran is commonly used as a solvent in laboratory research. It is used to dissolve various compounds and is a commonly used reagent in organic chemistry experiments.
Precautions when handling tetrahydrofuran
Flammability: Tetrahydrofuran is highly flammable and should be stored away from heat or flame. It should not be stored near any oxidizing agents.
Toxicity: Tetrahydrofuran can be dangerous if ingested, inhaled, or absorbed through the skin. It can cause dizziness, headaches, nausea, and eye and skin irritation. Use extreme caution when handling THF and always wear protective clothing, gloves, and goggles.
Storage: Tetrahydrofuran should be stored in a cool, dry and well-ventilated place. It should be stored in a closed container to prevent evaporation and moisture absorption.
Disposal: Tetrahydrofuran should be disposed of appropriately in accordance with local environmental regulations. It should not be poured down the drain or discarded in the trash.
Tetrahydrofuran (THF) has many uses in various industries, including the pharmaceutical, polymer and chemical industries. It is commonly used as a solvent and reaction medium, and its versatility makes it an important ingredient in many industrial processes. Keberry is a company specializing in the production of high quality Tetrahydrofuran. As a leading supplier of specialty chemicals, Keberry offers THF of high purity and strict quality control. However, due to the potential dangers of THF, appropriate precautions must be taken when handling this chemical. Keberry takes safety very seriously and provides detailed instructions for the safe handling, storage and disposal of THF to ensure its safe and effective use in various industries.
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Exploring the Versatility of Tetrahydrofuran (THF) and Cyclohexanone in Various Industries
Tetrahydrofuran (THF) is a crucial component in the production of several polymers. It is a key ingredient in the synthesis of polytetramethylene ether glycol (PTMEG), which is used in the manufacturing of polyurethanes, elastomers, and spandex fibers. Tetrahydrofuran (THF) is also used in the production of polyvinyl chloride (PVC) resins and polyvinylidene fluoride (PVDF). For more details call us at +86-510-83223090.
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What is the role of Propylene Glycol in the Food, pharmaceutical, and cosmetic industries?
It is a colorless, odorless, and tasteless fluid that can absorb water. It is produced through a process that yields a substance with low toxicity making it suitable for various applications. It is considered safe for consumption and is there for use in the food and pharmaceutical industries, also it has, thus making it an excellent solvent with the property to dissolve in a wide range of products.
What is its importance in cosmetics and other key industries?
Propylene Glycol(PG) USP/EP CAS Number: 57-55-6, in the Cosmetics and personal care industry, is used in high preference because of its moisture retention properties and its ability to blend easily. It helps skin and hair products retain moisture thus providing hydration benefits. This chemical’s presence extends the shelf life of cosmetics by inhibiting the growth of microorganisms.
Industrial application:
It is a key component in antifreeze formulations for vehicles and de-icing solutions for aircraft, because of its low freezing point. It is used in hydraulic and brake fluids for its characteristics to maintain fluidity at varying temperatures. It also serves as a heat transfer medium in refrigeration units. It is generally recognized as safe when used in food products but its prolonged exposure can be harmful. As it is a volatile solvent it evaporates quickly thus is very beneficial for various industries.
Laboratory applications:
It is mainly used for organic chemical reactions, reductions, and other chemical transformations. Used in techniques for photography, and chromatography in separating and analyzing complex chemical solutions. Tetrahydrofuran CAS Number: 109-99-9 is used as a solvent in the production of electrolytes for lithium batteries, helping in the performance of energy storage devices. Its low viscosity helps it easily handle and mix with other substances which is useful in various industries.
Both these chemical components are versatile having several properties and are therefore beneficial for several industries including adhesives to food and beverages, from pharmaceuticals and to electronic and energy storage industries. As industries continue to develop and innovate with the latest technology the importance of these components in supporting these advancements remains important.
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To start the engine of the SR 71,
you needed: Triethylborane (TEB), also called triethylboron, is an organoborane (a compound with a B–C bond). It is a colorless pyrophoric liquid. Its chemical formula is (CH3CH2)3B or (C2H5)3B, abbreviated Et3B. It is soluble in organic solvents tetrahydrofuran and hexane.
Triethylborane would ignite with the fuel JP7 when it hits oxygen. The maintenance crew would begin to start the engines one at a time. Look at the beautiful green color that it makes when they’re combined together. 💚
~ Linda Sheffield
@Habubrats71 via X
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Would you be willing to give or link a tutorial on how you carved the tail off your McDonald’s Sparkleworks so perfectly? Now I’m wondering if I can try it with one of the many repeat McD’s I have!
I just carved it with an X-Acto blade a little bit at a time. I didn't have a plan or anything. The vinyl cuts relatively easy with a fresh, sharp blade.
Most of the shape of the legs is already pretty well defined you just have to be a little careful after removing the bulk of the tail.
After that, to smooth out any weird carving marks, hit it with a 330 grit wet/dry sandpaper a little bit, then wipe with acetone to smooth it out a little more. Wash with dish soap and let dry.
If that ends up too shiny after it's had time to reset, scuff vigorously with melamine sponge.
I just used a regular drill to drill out a tail hole. Tail installation was the same as any MLP since the McDonald's half-brushable G3s are hollow in the body and the head attaches like the bigger G3s. I just boiled the whole pony and then wrestled the head off.
I also have tetrahydrofuran which is to vinyl as acetone is to plastic (meaning it melts it) which I swabbed over the carved and sanded areas to smooth it out more, but is an expensive and very toxic industrial solvent and I don't recommend getting into that unless you intend to modify vinyl a LOT.
Modding vinyl can be a pain, so go slow.
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Dimethyl ether, carbon tetrachloride, sodium thiohydrate, pyridine, hydrogen bromide, barium hydroxide, barium sulfide, phenol, hydrochloric acid, dibromomethane, sodium hydroxide, n-butylene ether, 3-methylpyridine, bromoethane, aluminum trichloride solution, benzene, ethanethiol, octadecyl acetamide, acetonitrile, N N-diisopropylethylamine, hydrogen fluoride [anhydrous], potassium antimony tartrate, n-butylacetate, ethylene oxide, cyclohexane, potassium hydroxide, aluminum trichloride [anhydrous], 2-nitroanisole, 1, 2-dichloropropene, n-butanol, magnesium, O O ≤-diethylthiophosphoyl chloride, phenol solution, N-(phenylethyl-4-piperidine) propionamide citrate, ethyl acetate, 1,4-xylene, 2-aminopropane, isophthaloyl chloride, 2-chlorotoluene, cyclopentene, propionic acid, hydrofluoric acid, 2-butenaldehyde, 2-methylpentane, ethylamine, bromine, coal tar pitch, ethyl formate, ammonia solution [containing ammonia > 10%] 1-aminohydrin, 4-ethoxyphenylamine, diisopropylamine, sodium ethanolate, nitrifying asphalt, hydrazide hydrate [containing hydrazide ≤ 64%], dimethyl sulfate, acetic acid [content > 80%], acetaldehyde, 2-butylketone, aluminum borohydrate, phenylethanolnitrile, 2-chlorobenzoyl chloride, sodium hypochlorite solution [containing available chlorine > 5%], 2-aminophenol, chloroplatinic acid, barium chloride, tert-butylbenzene, tribromide, methyl sulfide, Diphosphate pentasulfide, diethylamine, chlorobenzene, n-butylbenzene, 1,3-xylene, hydrogen peroxide solution [content > 8%], terephthaloyl chloride, red phosphorus, tetramethyl ammonium hydroxide, methanol, propionaldehyde, 2-methoxyphenylamine, bleach powder, triethyl propropionate, 1-bromobutene, cyclohexanone, di-(tert-butylperoxy) phthalate [paste Content ≤ 52%], tetrahydrofuran, trichloroethylene, magnesium aluminum powder, formic acid, sodium ethanol ethanol solution, isopropyl ether, acetic acid solution [10% < content ≤ 80%], 2-methyl-1-propanol, diethyl carbonate, sodium aluminum hydroxide, 2-methylpyridine, n-butylamine, toluene, thiourea, magnesium alloy [flake, banded or striped Containing magnesium > 50%], methyl benzoate, hydrobromide, 4-methylpyridine, iodine monochloride, sodium sulfide, 3-bromo-1-propene, 2-propanol, potassium borohydroxide, triethylamine, ammonia, 4-nitro-2-aminophenol, 1, 2-epichlorohydrin, 1-propanol, cyclopentane chloride, n-propyl acetate, bromoacetic acid, zinc chloride solution, trichloromethane, 1-bromopropane, monoamine [anhydrous], perchloric anhydride acetic anhydride solution, 1-bromopropane Potassium hydroxide solution [content ≥ 30%], boric acid, sodium borohydrate, hydroacetic acid bromide solution, acrylic acid [stable], cyclopentane chloride, ammonium hydrogen sulfate, calcium hydroxide, 2-ethoxyaniline, dimethyl carbonate, sodium nitroso, monomethylamine solution, zinc chloride, hydrogen sulfide, trimethyl acetate, iodine trichloride, nitric acid, sodium hydroxide solution [content ≥ 30%], trimethyl orthoformate, hydrogen chloride [anhydrous], 4-methoxyaniline, sulfur, succinile, acetic anhydride, dipropylamine, methyl acetate, isopropylbenzene, propionyl chloride, ethyl formate, phosphorus pentoxide, formaldehyde solution, nitrogen trifluoride, acetone, ethanol [anhydrous], white phosphorus, 1, 2-xylene, 1, 3-dichloropropene, 1, 1, 1-dichloroethane, N N-diethylethanolamine, sulfuric acid, N, N-dimethyl formamide, methyl mercaptan, 4-chlorotoluene, 1, 2-dichloroethane, dichloromethane, succinyl chloride, 2, 3-dichloropropene, xylene isomer mixture, tartrate nicotine, cyclopentane, petroleum ether, bromocyclopentane Potassium perchlorate, potassium chlorate, aluminum powder, chromic acid, iron chloride, lead nitrate, magnesium powder, nickel chloride, nickel sulfate, perchloroethylene, phosphate, potassium dichromate, sodium dichromate, zinc nitrate
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CAS 110-63-4 BDO Liquid 1,4-Butanediol 1 4 BDO Warehouse Supply for Excellent Solvent
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CAS
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Diphenylacetonitrile
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Name: 1,4-Butanediol
CAS No.: 110-63-4
Property: Colorless viscous liquid
Molecular Formula: C4H10O2 C6H14O6S2 (dimethylsulfonate) C10H18O4 (diglycidyl ether)
Molecular Weight: 90.12 g/mol 246.3 g/mol (dimethylsulfonate) 202.25 g/mol (diglycidyl ether)
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2'-Deoxyadenosine, monohydrate (Highly Pure)
2′-Deoxyadenosine, monohydrate (Highly Pure)
Catalog number: B2018180
Lot number: Batch Dependent
Expiration Date: Batch dependent
Amount: 1 g
Molecular Weight or Concentration: 269.26
Supplied as: Powder
Applications: a molecular tool for various biochemical applications
Storage: RT
Keywords: 16373-93-6, (2R,3S,5R)-5-(6-amino-9H-purin-9-yl)-2-(hydroxymethyl)tetrahydrofuran-3-ol hydrate,…
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テトラヒドロフラン (Tetrahydrofuran) 市場概要: 現在の価格、トレンド分析、および将来の予測
テトラヒドロフラン (Tetrahydrofuran) は、医薬品、ポリマー、化学製造など、さまざまな業界で広く使用されている非常に用途の広い溶剤です。そのため、テトラヒドロフランの価格は多くの企業にとって大きな意味を持つ可能性があります。価格に影響を与える要因を理解することは、調達および予算戦略の最適化を目指すメーカーやバイヤーにとって不可欠です。
THF の価格を左右する主な要因の 1 つは、ポリマー業界からの需要です。テトラヒドロフランは、ポリ塩化ビニル (PVC) とポリテトラメチレンエーテルグリコール (PTMEG) の製造における主要な溶剤であり、これらは柔軟なプラスチック、エラストマー、スパンデックス繊維の製造に重要です。これらの材料の需要が、特に自動車、繊維、建設などの分野で高まると、THF の需要が増加し、価格が上昇することがよくあります。逆に、ポリマーの需要が弱まると、THF の価格に下押し圧力がかかる可能性があります。
テトラヒドロフランの製造に使用される原材料のコストは、価格に影響を与えるもう 1 つの重要な要因です。 THF は通常、石油化学製品であるブタンとブタジエンから生成されます。原油価格の変動と天然ガスの入手可能性はブタジエンの生産コストに直接影響し、それが THF の価格に影響します。地政学的緊張、サプライ チェーンの混乱、または OPEC の生産政策の変更により原油価格が急騰すると、THF のコストが上昇する可能性があります。同様に、ブタジエンの供給が中断すると THF が不足し、価格が急騰する可能性があります。
サプライ チェーンのロジスティクスも THF の価格を決定する上で重要な役割を果たします。テトラヒドロフランは特定の地域で生産されるため、多くの場合、さまざまな産業拠点に輸送する必要があります。燃料費の上昇、輸送のボトルネック、港の混雑など、輸送の遅延や課題があると、THF のコストが上昇する可能性があります。さらに、貿易制限、関税、制裁などの地政学的要因により国際貿易が複雑になり、THF の入手可能性と価格にさらに影響する可能性があります。
世界経済の状況も THF 価格の重要な要因です。経済成長は産業活動を促進する傾向があり、THF などの溶剤の需要増加につながります。経済拡大期には、企業が生産を拡大し、さまざまな用途で THF の需要が増加します。しかし、景気後退期には、産業生産が鈍化し、THF の需要が減少し、価格が下落する可能性があります。インフレ傾向、為替レートの変動、金利も、THF の価格を世界的に左右する可能性のある幅広い市場状況の一因となります。
近年、テトラヒドロフラン生産の環境への影響が精査されており、規制圧力もその市場を形成しています。政府や規制機関がより厳しい環境基準を施行するにつれて、THF メーカーはこれらの規制に準拠するためのコスト増加に直面する可能性があります。これには、よりクリーンな技術への投資、排出量の削減、持続可能な生産慣行の実装が含まれる可能性があり、これらはすべて生産コストを押し上げ、ひいては THF の価格を押し上げる可能性があります。さらに、環境政策の変更は市場の需給に影響を与え、価格に影響を与える可能性があります。
リアルタイムでテトラヒドロフラン (Tetrahydrofuran)価格: https://www.analystjapan.com/Pricing-data/Tetrahydrofuran-83
技術の進歩とプロセスの革新も、THF の価格形成に役割を果たしています。より環境に優しくエネルギー効率の高い技術の採用など、製造プロセスの改善は、生産コストの削減と価格の安定化に役立ちます。最先端の技術やより効率的な原材料調達戦略に投資する企業は、THF をより低コストで生産できる可能性があり、その節約分を消費者に還元できる可能性があります。ただし、これらのメリットは、これらのイノベーションが業界全体でどの程度広く採用されるかに左右されることが多いです。
THF の価格に影響を与えるもう 1 つの重要な要因は、化学市場における競争です。生産者間の競争レベル、代替溶剤の可用性、市場シェアの変化はすべて、価格動向に影響します。THF 生産市場に新規参入者が出現したり、既存のプレーヤーが生産能力を拡大したりすると、供給が増加して価格が下がる可能性があります。一方、合併、買収、または主要プレーヤーの撤退により、市場がより集中し、価格が上昇する可能性があります。
結論として、テトラヒドロフランの価格は、ポリマー業界からの需要、ブタジエンなどの原材料のコスト、世界的なサプライチェーンの動向、経済状況、環境規制、技術の進歩など、さまざまな要因の影響を受けます。
ANALYST JAPAN
Call +1 (332) 258- 6602
1-2-3 Manpukuji, Asao-ku, Kawasaki 215-0004 Japan
Website: https://www.analystjapan.com
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Dear Friend,
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nitrogen 氮气 7727-37-9 2804300000
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Sodium hydrogen sulfide 硫化氢钠 16721-80-5 2830109000
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Activated carbon 活性炭 7440-44-0 3802101000/3802109000
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Tetrahydrofuran 四氢呋喃 109-99-9 2932110000
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Dimethyl ether 二甲醚 115-10-6 2909191000
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Acid dextrin 酸性糊精 9004-53-9 35051000
Nitrobenzene 硝基苯 804-36-4 2904201000
Hydrochloric acid 盐酸 7647-01-0 28061000
Nitric acid 硝酸 7697-37-2 28080000
Sulfuric acid 硫酸 7664-93-9 2807000010
Phosphoric acid 磷酸 7664-38-2 2809201100
Oxalic acid 草酸 144-62-7 2917111000
Acetic acid 醋酸 64-19-7 29152100
Formic acid 甲酸 64-18-6 2915110000
Propionic acid 丙酸 CAS: 79-09-4 2915501000
Iodic acid 碘酸 7782-68-5 28111980
Sulfuric acid 硫磺酸 107-35-7 29211980
Tartaric acid 酒石酸 526-83-0 2918120000
Industrial oleic acid 工业油酸 112-80-1 29161500
Adipic acid 己二酸 124-04-9 2917120001
Isooctanoic acid 异辛酸 149-57-5 29159080
Methanol 甲醇 67-56-1 2905110000
Ethanol 乙醇 64-17-5 2207100000
Propanol 丙醇 71-23-8 2905121000
Butanediol 丁二醇 19132-06-0 2905399002
Octyl alcohol 辛醇 111-87-5 2905161000
Propylene glycol 丙二醇 57-55-6 2905320000
Ethyl acetate 乙酸乙酯 141-78-6 2915310000
Potassium nitrate 硝酸钾 7757-79-1 2834219000
Magnesium nitrate 硝酸镁 10377-60-3 2834299090120
Copper nitrate 硝酸铜 3251-23-8 2834299090129
Aluminum nitrate 硝酸铝 13473-90-0 2834299090122
Iron nitrate 硝酸铁 10421-48-4 2834299090126
Zinc nitrate 硝酸锌 7779-88-6 2834299090114
Strontium nitrate 硝酸锶 10042-76-9 2834299090110
Barium nitrate 硝酸钡 10022-31-8 28342990
Lithium nitrate 硝酸锂 7790-69-4 2834299090104
Lead nitrate 硝酸铅 10099-74-8 2834299090118
Rubidium nitrate 硝酸铷 13126-12-0 28342980
Cesium nitrate 硝酸铯 7789-18-6 2834299090108
Chromium nitrate 硝酸铬 13548-38-4 2834299090124
Cobalt nitrate 硝酸钴 10141-05-6 2834299090
Silver nitrate 硝酸银 7761-88-8 28432100
Manganese nitrate 硝酸锰 10377-66-9 2834299090125
Potassium chloride 氯化钾 7447-40-7 3104209000
Sodium chloride 氯化钠 7647-14-5 2501001900
Magnesium chloride 氯化镁 7786-30-3 2827310000
Ferric chloride 氯化铁 7705-08-0 2827399000113
Calcium chloride 氯化钙 10043-52-4 2827200000
Aluminum chloride 氯化铝 7446-70-0 2827320000
Zinc chloride 氯化锌 7646-85-7 2827399000124
Ammonium chloride 氯化铵 12125-02-9 2827101000/2827109000
Cobalt chloride 氯化钴 7646-79-9 2827393000
Chromium chloride 氯化铬 10025-73-7 28273985
Cesium chloride 氯化铯 7647-17-8 28273980
Silver chloride 氯化银 7783-90-6 2843290090102
Sodium sulfate 硫酸钠 7757-82-6 28331100
Magnesium sulfate 硫酸镁 7487-88-9 2833210000
Ammonium sulfate 硫酸铵 7783-20-2 3102210000
Potassium sulfate 硫酸钾 7778-80-5 3104300000
Calcium sulfate 硫酸钙 7778-18-9 28332980
Silver sulfate 硫酸银 10294-26-5 28432900
Chromium sulfate 硫酸铬 10101-53-8 2833292000
Chromium formate 甲酸铬 27115-36-2 2915120000
Cobalt sulfate 硫酸钴 10026-24-1 2833299010
Sodium hydroxide 氢氧化钠 1310-73-2 2815110000
Potassium hydroxide 氢氧化钾 1310-58-3 2815200000
Magnesium hydroxide 氢氧化镁 1309-42-8 2816100090
Calcium hydroxide 氢氧化钙 1305-62-0 2825 90 19
Iron hydroxide 氢氧化铁 1309-33-7 2821100000102
Sodium carbonate 碳酸钠 497-19-8 2836200000
Potassium carbonate 碳酸钾 584-08-7 2836400000102
Calcium carbonate 碳酸钙 471-34-1 2836500000
Silver carbonate 碳酸银 534-16-7 28432900
Sodium percarbonate 过碳酸钠 15630-89-4 2836999000
Sodium bicarbonate 碳酸氢钠 144-55-8 2836300000
Sodium arsenite 亚砷酸钠 7784-46-5 2842909013
Ammonium bicarbonate 碳酸氢铵 1066-33-7 2836994000102
Diammonium phosphate 磷酸二铵 7783-28-0 31053000
Sodium phosphate 磷酸钠 7558-79-4 3105300090
Trisodium phosphate 磷酸三钠 7601-54-9 2835291000
Potassium phosphate 磷酸钾 53006-98-7 28352910
Potassium pyrophosphate 焦磷酸钾 7320-34-5 28353990
Tripotassium phosphate 磷酸三钾 7778-53-2 2835240000104
Aluminum phosphate 磷酸铝 7784-30-7 2835299000103
Calcium phosphate 磷酸钙 7758-87-4 28352600
Potassium chlorate 氯酸钾 CAS: 3811-04-9 2829191000
Sodium chlorate 氯酸钠 CAS: 7775-09-9 2829110000
Barium chlorate 氯酸钡 10294-38-9 2829199000
Sodium hypochlorite 次氯酸钠 7681-52-9 2828900000
Sodium chlorite 亚氯酸钠 7758-19-2 2828900000103
Calcium hypochlorite 次氯酸钙 7778-54-3 2828100000
Sodium perchlorate 高氯酸钠 7601-89-0 2829900090103
Potassium perchlorate 高氯酸钾 7778-74-7 2829900020
Ammonium perchlorate 高氯酸铵 7790-98-9 2829900090
Potassium dichromate 重铬酸钾 7778-50-9 2841500000
Sodium dichromate 重铬酸钠 10588-01-9 2841500000
Tellurium Te 碲 Te 13494-80-9 2804500001
Indium In 铟 In 7440-74-6 8112 99 70
Gallium Ga 镓 Ga 7440-55-3 81129290
Cadmium Cd 镉 Cd 7440-43-9 8107 20 00
Antimony Sb 锑 Sb 7440-36-0 8110102000
Phosphorus P 磷 P 7723-14-0 28047000
Arsenic As 砷 As 7440-38-2 2804800000
Aluminum Al 铝 Al 7429-90-5 7603100010
Beryllium Be 铍 Be 7440-41-7 8112120000
Copper Cu 铜 Cu 7440-50-8 74081100
germanium Ge 锗 Ge 7440-56-4 28053090
Zinc Zn 锌 Zn 7440-66-6 7904 00 00
Tin Sn 锡 Sn 7440-31-5 8003000000
Mercury Hg 汞 Hg 7439-97-6 2805400000
Copper oxide 氧化铜 1317-38-0 28255000
Iron oxide 氧化铁 1309-37-1 2821100000
Aluminum oxide 氧化铝 1344-28-1 2818200000
Niobium pentoxide Nb2O5 五氧化二铌 Nb2O5 1313-96-8 2825904910
Zirconium dioxide ZrO2 二氧化锆 ZrO2 1314-23-4 2825600090
Tantalum pentoxide Ta2O5 五氧化二钽 Ta2O5 1314-61-0 28259085
Titanium pentoxide Ti3O5 五氧化三钛 Ti3O5 12065-65-5 2823000000
Zinc sulfide ZnS 硫化锌 ZnS 1314-98-3 28309085
Silicon dioxide SiO2 二氧化硅 SiO2 14808-60-7 2811229000
Gallium antimonide GaSb 锑化镓 GaSb 12064-03-8 2853909029
Indium antimonide InSb 锑化铟 InSb 1312-41-0 3818009000
Cadmium telluride CdTe 碲化镉 CdTe 1306-25-8 2842902000
Bismuth telluride Bi2Te3 碲化铋 Bi2Te3 1304-82-1 2842909090
Gallium telluride Ga2Te3 碲化镓 Ga2Te3 12024-14-5 8106001091
Zinc telluride ZnTe 碲化锌 ZnTe 1315-11-3
CdZnTe 碲锌镉 CdZnTe 8107900000
Indium Phosphide InP 磷化铟 InP
Germanium phosphide GeP 磷化锗 GeP
Cadmium selenide CdSe 硒化镉 CdSe 1306-24-7 2842909023
Germanium sulfide Ge2S3 硫化锗 Ge2S3 12025-32-0 8112991000
Steel gallium tin InGaSn 钢镓锡 InGaSn
Antimony dioxide SbO2 二氧化锑 SbO2 2025820 28112900
Indium trioxide In2O3 三氧化二铟 In2O3
Germanium dioxide GeO2 二氧化锗 GeO2 1310-53-8 2825 60 00
Bismuth trioxide Bi2O3 三氧化二铋 Bi2O3 1304-76-3 2825902100
Tellurium dioxide Te02 二氧化碲 Te02 2025820 28112900
Gallium trioxide Ga2O3 三氧化二镓 Ga2O3 12024-21-4 28259090
Urea for vehicles 车用尿素 57-13-6 31021000
Urea for agriculture 农用尿素 57-13-6 3102100010101
尿素硝酸铵溶液 3102800000
PCU 控释氮肥 3105590000
NPK 氮磷钾复合肥 66455-26-3 3105200010
MOP 氯化钾肥 7447-40-7 3104202000
DAP 磷酸氢二铵 7783-28-0 3105300090
MAP 磷酸一铵 7722-76-1 3105590000
MKP 磷酸二氢钾 7778-77-0 2835240000
magnesium sulfate 硫酸镁 7487-88-9 2833210000
ammonium sulfate 硫酸铵 7783-20-2 31022100
sodium sulfate 硫酸钠 7757-82-6 2833190000
soil conditioner 土壤调理剂 38249090
water-soluble fertilizer 水溶肥 3105909090
organic-inorganic fertilizer 有机无机肥 3105901000
compound fertilizer 复合肥 3105901000301
Ammonium nitrate calcium, 硝酸铵钙 15245-12-2 3102600000
Calcium nitrate 硝酸钙 10124-37-5 3102600000
Urea compound fertilizer 尿素-复合肥-各类 58069-82-2 38249090
trace elements Amino acids 微量元素氨基酸肥 31052000.01
other fertilizer products 其他肥料产品
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Tetrahydrofuran Prices Trend | Pricing | Database | Index | News | Chart
Tetrahydrofuran (THF) prices are influenced by a complex interplay of market dynamics and industrial demand. THF, a versatile solvent with applications spanning pharmaceuticals, polymers, and chemical synthesis, experiences price fluctuations driven primarily by supply chain factors and raw material costs. The global THF market is closely tied to the production of butanediol (BDO), its major precursor, which in turn depends heavily on the availability and pricing of raw materials such as acetylene, propylene, and butadiene.
In recent years, THF prices have shown variability due to several key factors. Market demand, particularly from sectors like pharmaceuticals and polymer manufacturing, plays a pivotal role in influencing prices. As industries expand and innovate, the need for THF as a solvent in various processes increases, leading to upward pressure on prices during periods of high demand. Conversely, economic downturns or shifts in industrial practices can result in decreased demand, causing THF prices to stabilize or even decrease in response to reduced market activity.
Geopolitical factors and global economic conditions also contribute significantly to THF price fluctuations. Tariffs, trade agreements, and geopolitical tensions can disrupt supply chains and affect the availability of raw materials needed for THF production. Currency exchange rates and inflation rates in major producing and consuming countries further influence pricing, as they impact production costs and export/import dynamics.
Get Real Time Prices for Tetrahydrofuran (THF): https://www.chemanalyst.com/Pricing-data/tetrahydrofuran-1213
The environmental regulations governing the production of THF and its precursors are another critical determinant of price trends. Stringent environmental standards can increase operational costs for manufacturers, potentially leading to higher prices as companies seek to offset compliance expenses. Conversely, advancements in green chemistry and sustainable manufacturing practices may mitigate some cost increases by improving efficiency and reducing environmental impact.
Market competitiveness among THF producers also plays a crucial role in price dynamics. Competition encourages innovation and cost-efficiency, which can drive prices down as manufacturers strive to capture market share. However, consolidation within the industry or disruptions in supply can lead to temporary price spikes as market players adjust to changing conditions.
Seasonal variations in demand, particularly in sectors like agriculture and construction that use THF-based products, can create cyclical patterns in pricing. For example, increased construction activity during the spring and summer months may boost demand for THF-containing materials, influencing prices accordingly. Manufacturers and distributors monitor these seasonal fluctuations closely to optimize production schedules and manage inventory levels effectively.
Looking ahead, technological advancements and regulatory developments will continue to shape the future of THF pricing. Innovations in renewable energy sources and bio-based feedstocks offer potential avenues for reducing production costs and enhancing sustainability within the THF industry. Simultaneously, evolving regulatory landscapes focused on environmental protection and chemical safety may introduce compliance costs that influence pricing strategies across the market.
In conclusion, Tetrahydrofuran prices are multifaceted, influenced by a diverse array of factors including market demand, raw material costs, geopolitical developments, environmental regulations, and industry competitiveness. Understanding these dynamics is crucial for stakeholders across the supply chain—from manufacturers to end-users—as they navigate the complexities of THF pricing and plan for future market conditions. By staying informed and adaptable, businesses can effectively manage risks and capitalize on opportunities within the dynamic THF market landscape.
Get Real Time Prices for Tetrahydrofuran (THF): https://www.chemanalyst.com/Pricing-data/tetrahydrofuran-1213
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Discover the benefits of using Tetrahydrofuran ZL-439 Supplement
As a commonly used additive, Tetrahydrofuran ZL-439 has advantages in all walks of life. Let’s learn about it with the editor. If you are interested in our Tetrahydrofuran ZL-439, you can directly click to learn more
Improve solubility:
Tetrahydrofuran ZL-439 has good solubility and is compatible with many different types of substances. It can be quickly dissolved and dispersed in the matrix material, thus improving the uniformity and stability of the material. This makes the additive widely used in the fields of coatings, adhesives and resins to improve the handling performance and coating quality of products.
Improve adhesive performance:
Tetrahydrofuran ZL-439 exhibits excellent performance in bonding applications. It enhances the adhesion between the base material and the adhesive, and improves bond strength and durability. This makes the additive widely used in automotive manufacturing, aerospace and construction to ensure reliable joining of components and structures.
Provides Antioxidant Protection:
Tetrahydrofuran ZL-439 can effectively prevent the occurrence of oxidation reactions. It can form a protective layer on the surface of the base material to block the erosion of the material by air and other oxidants. This antioxidant protection helps prolong the life of products, especially in areas such as plastics, rubber and coated materials.
Improve flame retardant properties:
Tetrahydrofuran ZL-439 also plays an important role in improving the flame retardancy of the material. It improves the flame retardancy of the material and reduces the risk of fire. Therefore, in the fields of electrical and electronic equipment, furniture and building materials, this additive is widely used to meet safety standards and regulatory requirements.
Adjustable performance:
Tetrahydrofuran ZL-439 has the advantage of adjustable properties. By adjusting the ratio of additives or using them in combination with other compounds, the characteristics of the product can be changed according to the needs and requirements of different applications. This flexibility makes Tetrahydrofuran ZL-439 an ideal choice during product development and optimization.
It can be seen that Tetrahydrofuran ZL-439 additive has significant advantages in improving product performance.
It improves solubility, provides antioxidant protection, enhances adhesion properties, improves flame retardancy, and has the advantage of tunable properties. Tetrahydrofuran ZL-439 provides long-lasting support for the function and performance of products, whether in the coatings industry, in the construction sector or in the manufacture of electrical and electronic equipment. By fully exploiting the advantages of this additive, companies can gain a competitive advantage and meet the market demand for high-performance products.
Welcome to contact us for more content about Tetrahydrofuran ZL-439 additive
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Tetrahydrofuran (THF) Supplier |Your Trusted Source for Quality Chemicals
The two most important things to think about when purchasing chemicals for your company are quality and reliability. As a trustworthy Tetrahydrofuran (THF) Supplier, we take great satisfaction in providing our clients with only the best goods. You may be confident that you are receiving the greatest products on the market since our team of professionals makes sure that all of our chemicals adhere to stringent quality control standards.
View Source: https://medium.com/@wxwlchem/tetrahydrofuran-thf-supplier-your-trusted-source-for-quality-chemicals-6250488b8312
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Tetrahydrofuran CAS Number: 109-99-9 | Ralin BV
Welcome to another episode of "chemistry insight" brought to you by Ralin BV. Today, we're diving into the fascinating world of tetrahydrofuran, commonly known by its CAS Number: 109-99-9. Tetrahydrofuran, or THF, is a versatile solvent widely used in the chemical industry due to its ability to dissolve a variety of polymers. In this episode, we'll explore the chemical properties that make THF such an essential compound, its applications in various industries, and the safety measures required for handling it. We'll also delve into the role of Ralin BV in providing high-quality THF to ensure the best performance in your chemical processes. So, whether you're a chemist, a student, or just someone curious about the chemicals that shape our world, stay tuned as we unravel the mysteries of tetrahydrofuran.
Visit: Tetrahydrofuran CAS Number: 109-99-9
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