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chemanalyst · 1 year ago

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Melamine Market is Expected to Grow at a CAGR of 3.87% during the forecast period until 2032

The melamine market has witnessed remarkable growth and diversification in recent years, propelled by a myriad of factors shaping the global landscape. Melamine, a nitrogen-rich organic compound, finds extensive applications across various industries, including construction, automotive, textiles, packaging, and food service. Its unique properties, such as high flame resistance, thermal stability, durability, and chemical inertness, have made melamine a versatile and indispensable material in numerous manufacturing processes and end-use applications.

One of the primary drivers of the melamine market is the increasing demand from the construction industry. Melamine-based products, such as melamine formaldehyde resins and melamine foam insulation, are widely used in construction applications such as laminates, decorative panels, flooring, countertops, and insulation materials. With rapid urbanization, infrastructure development, and construction activities on the rise globally, the demand for melamine-based construction materials is expected to surge.

Read Full Report: https://www.chemanalyst.com/industry-report/melamine-market-812

Moreover, the automotive sector represents another significant market for melamine, driven by the increasing demand for lightweight, durable, and aesthetically appealing materials. Melamine-based components, such as automotive interior trim, dashboard panels, door panels, and decorative parts, offer excellent properties such as scratch resistance, color stability, and surface finish, thereby enhancing the overall aesthetics and functionality of vehicles. As automotive manufacturers focus on improving fuel efficiency, reducing emissions, and enhancing passenger comfort and safety, the demand for melamine-based automotive materials is projected to grow substantially.

Furthermore, the textiles industry presents lucrative opportunities for the melamine market, particularly in the manufacturing of melamine-formaldehyde resins for textile finishing and coating applications. Melamine resins impart crease resistance, wrinkle resistance, and color fastness to textiles, thereby enhancing their durability, appearance, and performance. With the growing demand for high-quality textiles, home furnishings, and apparel, the demand for melamine-based textile additives is expected to increase.

Additionally, the packaging industry represents a significant market for melamine, driven by the rising demand for lightweight, durable, and eco-friendly packaging materials. Melamine-based products, such as melamine-formaldehyde resins and melamine foam packaging, offer excellent properties such as thermal insulation, moisture resistance, and shock absorption, making them ideal for packaging applications such as food packaging, electronics packaging, and industrial packaging. As consumers increasingly prioritize sustainability, recyclability, and environmental friendliness, the demand for melamine-based packaging solutions is expected to grow.

Despite the promising outlook, the melamine market faces challenges and constraints, including fluctuating raw material prices, regulatory compliance issues, and environmental concerns related to formaldehyde emissions. However, industry stakeholders are actively addressing these challenges through initiatives focused on product innovation, sustainability, and regulatory compliance. Moreover, strategic partnerships, mergers, and acquisitions are driving consolidation and market expansion in the melamine industry.

In conclusion, the melamine market is poised for continued growth and innovation, driven by its versatile applications, inherent properties, and compatibility with evolving market trends. By leveraging its strengths in construction, automotive, textiles, packaging, and other sectors, the melamine market can navigate towards a more sustainable and prosperous future, ensuring its relevance and competitiveness in the global marketplace.

About us:

ChemAnalyst is an online platform offering a comprehensive range of market analysis and pricing services, as well as up-to-date news and deals from the chemical and petrochemical industry, globally.

Being awarded ‘The Product Innovator of the Year, 2023’, ChemAnalyst is an indispensable tool for navigating the risks of today's ever-changing chemicals market.

The platform helps companies strategize and formulate their chemical procurement by tracking real time prices of more than 400 chemicals in more than 25 countries.

ChemAnalyst also provides market analysis for more than 1000 chemical commodities covering multifaceted parameters including Production, Demand, Supply, Plant Operating Rate, Imports, Exports, and much more. The users will not only be able to analyse historical data but will also get to inspect detailed forecasts for upto 10 years. With access to local field teams, the company provides high-quality, reliable market analysis data for more than 40 countries.

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Email-id: [email protected]

Mobile no: +1-3322586602

#Melamine #Melaminemarket #Melaminemarketsize #Melaminemarkettrends #Melaminemarketgrowth #Melaminemarketshare #Melaminedemand

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tanujasaini · 24 days ago

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Top 15 Market Players in Global Melamine Pyrophosphate (MPP) (Used in fibers and foams) Market

BASF SE A leader in specialty chemicals, BASF offers innovative flame retardant solutions with a focus on environmental sustainability.

Clariant AG Known for advanced materials, Clariant’s MPP products are tailored to meet global regulatory standards.

Lanxess AG A prominent name in the specialty chemicals sector, Lanxess emphasizes safety and eco-friendly MPP production methods.

Shouguang Weidong Chemical Co., Ltd. One of China's key players in flame retardants, this company specializes in high-quality MPP tailored for textile and foam applications.

Zhejiang Longyou GD Chemical Industry Co., Ltd. A rapidly growing player focused on developing cost-effective MPP solutions for global markets.

JLS Chemical This company has established itself as a reliable supplier of flame retardant chemicals, including MPP, with a focus on high-performance applications.

Jiangyin Suli Chemical Co., Ltd. A key Chinese producer focusing on delivering competitive MPP products for the global market.

Shandong Brother Sci. & Tech. Co., Ltd. Specializes in eco-friendly flame retardant additives, including Melamine Pyrophosphate.

Hubei Xingfa Chemicals Group Co., Ltd. Known for integrating innovation in flame retardant solutions across multiple industries.

Zhejiang MP Chemicals Co., Ltd. A major player with a focus on sustainable production of flame retardants such as MPP.

Tianjin Jiuri Chemical Co., Ltd. This company offers diverse flame retardant chemicals, with a focus on research-driven MPP products.

Italmatch Chemicals A global innovator in flame retardants, focusing on eco-conscious products like MPP for fibers and foams.

Puyang Chengke Chemical Co., Ltd. A specialized supplier for advanced flame retardant materials, serving niche markets with tailored MPP solutions.

Zibo Yinhe Chemical Co., Ltd. Renowned for quality flame retardant chemicals, with consistent supply and robust R&D capabilities.

Tangshan Sanli Chemical Co., Ltd. A rising star offering innovative MPP solutions for high-performance textiles and foam products.

Request report sample at https://datavagyanik.com/reports/global-melamine-pyrophosphate-mpp-used-in-fibers-and-foams-market/

Top Winning Strategies in Melamine Pyrophosphate (MPP) (Used in fibers and foams) Market

In a highly competitive landscape, successful companies leverage various strategies to gain market leadership. Below are the top strategies adopted by leading players in the MPP industry:

1. Innovation in Sustainable Products

With stricter regulations on flame retardant chemicals, companies are investing in R&D to develop eco-friendly MPP products.

Examples: BASF and Clariant focus on low-toxicity and sustainable MPP formulations.

2. Expansion into Emerging Markets

Demand for flame retardants in Asia-Pacific and Latin America is driving companies to strengthen their presence in these regions.

Companies like Lanxess and Hubei Xingfa are setting up local production units to reduce costs and capture market share.

3. Strategic Partnerships and Acquisitions

Collaboration with raw material suppliers, distributors, or other chemical firms helps companies streamline supply chains and expand portfolios.

Recent collaborations include joint ventures between Chinese and European manufacturers.

4. Focus on High-Performance Applications

Players are diversifying their product lines to cater to industries such as construction, automotive, and aerospace, where advanced flame retardant properties are critical.

Example: Italmatch Chemicals targets high-temperature resistant foam applications.

5. Investments in Manufacturing Technology

Companies are upgrading facilities with advanced technologies to improve production efficiency and reduce costs.

Shouguang Weidong and Shandong Brother are leaders in automated, large-scale MPP production.

6. Regulatory Compliance and Certifications

Adherence to fire safety regulations (e.g., REACH, RoHS) and obtaining global certifications ensure product reliability and access to international markets.

Companies like JLS Chemical prioritize compliance to maintain their competitive edge.

7. Customized Solutions for End-User Industries

Tailoring MPP formulations to meet the specific needs of industries such as textiles, construction, and consumer goods is a key focus for market players.

Zhejiang Longyou GD Chemical leads in offering customized MPP solutions.

8. Digital Marketing and Global Distribution

Leveraging e-commerce platforms and digital marketing tools enhances visibility and facilitates direct customer engagement.

Examples include BASF’s online platforms for specialty chemical sales.

Request a free sample copy at https://datavagyanik.com/reports/global-melamine-pyrophosphate-mpp-used-in-fibers-and-foams-market/

#Melamine Pyrophosphate (MPP) market #Melamine Pyrophosphate (MPP) Production #market players #market share #market size #top trends #revenue #average price

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kingyazer · 1 month ago

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Discover how melamine foam can enhance filtration systems in advanced applications like nuclear power plants. Learn about its role as a pre-filter and in composite materials to improve performance, efficiency, and reliability.

#pre-filters

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chemicalsindustry · 2 months ago

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Foam Market Top Manufacturing Industry Revenue Size & Share Outlook

Foam is manufactured using raw materials such as polymers, naphtha, resins, and additives. Lightweight material with low density, foam can be either rigid or flexible. Most foam is flexible and soft. Some types of foam have low heat or sound transfer properties, making them optimal insulators. Polyurethane (PU), polystyrene (PS), polyolefin (PO), phenolic, polyethylene terephthalate (PET), melamine, phenolic, PVC, silicone, and PVDF are the major types of foam.

Download PDF Brochure at https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=81495607

The foam market size is estimated at USD 93.9 billion in 2021 and is projected to reach USD 118.9 billion by 2026, at a CAGR of 4.8% between 2021 and 2026. The market is propelled by the growth of various end-use industries. Increasing investments in infrastructure, new housing projects, and renovation of non-residential buildings in China, India, and Brazil have also boosted the market growth.

Foam is widely used in the automotive, building & construction, packaging, footwear, sports & recreational, and furniture & bedding industries. Flexible PU foam is extensively used in the automotive and building & construction industries. It helps automobile manufacturers address issues related to weight reduction, vibration absorption, fuel efficiency, and durability.

The foam market is driven by increasing demand from the packaging, automotive, and building & construction industries. The rising demand for high-quality products from APAC, the Middle East & Africa, and South American countries is also driving the market. Emerging economies such as India, China, Brazil, Southeast Asia, and Mexico are expected to be the most lucrative destinations for the foam market in the near future. The major challenges for foam manufacturers are the increasing prices and stringent regulations set by various governments. Fluctuation in raw material prices is also a restraining factor for the market.

Request For FREE Sample of Report at https://www.marketsandmarkets.com/requestsampleNew.asp?id=81495607

Continuous developments in the market, including new product launches, investment & expansion, merger & acquisitions, and partnerships & agreements are expected to help the market grow. Several products are being introduced, and investments are made in increasing the production capacity of polyolefin foam by manufacturers for different applications. New product launch has helped companies enhance their product portfolio.

#Foam Market #Foam #Foams #Foam Industry

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octagonsolution · 6 months ago

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Melamine Sponge

Sponge Melamine, commonly known as a "magic eraser," is a cleaning product made from melamine foam. While specific specifications can vary between manufacturers, here are general characteristics

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giazhou1 · 9 months ago

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As the supply and demand of LNG continue to expand, the demand for LNG ships is also increasing accordingly. LNG ships face various uncertain factors such as weather changes in the ocean, and thermal insulation materials must be used to meet LNG low-temperature storage requirements to effectively reduce heat evaporation losses during transportation.

#thermal insulation material #melamine foam #thermal insulation #insulation materials #basotect foam supplier #acoustic insulation #LNG ship insulation material #LNG carrier #melamine foam manufacturer

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infinitiresearch · 1 year ago

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Melamine Market| Analysis, Growth and Forecast, 2023 – 2027

Originally published on Technavio: Melamine Market by Application, Type and Geography - Forecast and Analysis 2023-2027

The Melamine Market is expected to witness significant growth from 2023 to 2027, driven by the diverse applications and widespread use of melamine in various industries. This research explores key aspects of the market, including different application areas, types of melamine, and geographical considerations.

**Application Analysis:** The Melamine Market encompasses a wide range of applications across different industries. Common applications include laminates, adhesives, molding compounds, coatings, and flame retardants. In the laminates industry, melamine is widely used to create decorative surfaces for furniture and interiors due to its durability and resistance to wear. In adhesives, melamine-based resins provide strong bonding properties, making them suitable for wood and other substrates. Molding compounds, often used in the production of dinnerware and kitchenware, utilize melamine for its heat resistance and molding capabilities. Melamine-based coatings find application in various surfaces, providing protection and enhancing aesthetic appeal, while melamine-based flame retardants contribute to fire-resistant materials in construction and textiles.

**Type Analysis:** The Melamine Market offers different types of melamine based on manufacturing processes and applications. Common types include melamine resin, melamine foam, and melamine formaldehyde. Melamine resin, derived from the condensation of melamine and formaldehyde, is widely used in laminates, adhesives, and molding compounds due to its excellent thermal and chemical resistance. Melamine foam, known for its sound-absorbing and cleaning properties, is utilized in acoustic applications and household cleaning products. Melamine formaldehyde, a thermosetting plastic, is commonly used in molding compounds for the production of dinnerware and decorative items.

**Geographical Analysis:** Geographically, the Melamine Market is expected to witness robust growth across different regions. Asia-Pacific, with its thriving construction and furniture industries, is anticipated to be a key market. China, in particular, plays a significant role as a major producer and consumer of melamine. North America and Europe also contribute substantially to the market, driven by the demand for melamine in diverse applications, including laminates and adhesives. Regional dynamics are influenced by factors such as economic growth, industrialization, and the adoption of melamine in various manufacturing sectors.

**Market Dynamics:** The market dynamics of the Melamine Market are shaped by the material's versatile properties, including its resistance to heat, chemicals, and wear. Melamine's ability to provide aesthetic appeal, durability, and functionality across different applications drives its widespread adoption. The market is influenced by trends in the construction and furniture industries, where melamine plays a crucial role in enhancing product performance and longevity. Additionally, the increasing focus on sustainable and eco-friendly alternatives may impact the market as manufacturers explore ways to reduce the environmental footprint of melamine production.

**Challenges and Opportunities:** While the Melamine Market presents significant opportunities, it is not without challenges. Concerns about formaldehyde emissions from melamine-based products, especially in the context of indoor air quality, pose challenges for the industry. However, these challenges also open doors for innovation in developing low-emission melamine products and exploring sustainable manufacturing practices. Opportunities lie in expanding applications, such as melamine foams for sound insulation and fire-resistant materials, as well as exploring new geographical markets with emerging construction and manufacturing sectors.

To Learn deeper into this report , View Sample PDF

In conclusion, the Melamine Market is poised for substantial growth as the demand for durable, versatile, and aesthetically pleasing materials continues across various industries. The market's dynamics reflect the adaptability of melamine in meeting diverse application needs. Industry players must navigate these trends, address challenges, and continue to innovate to capitalize on the growing demand for melamine in the global market.

For more information please contact.

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kingyazer · 2 months ago

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SINOYQX proudly announces its BSCI certification, solidifying its commitment to sustainable and ethical practices. The company is also expanding its Clean Magic Sponge product line and welcomes new business partnerships to grow the market for eco-friendly cleaning solutions globally.

#sustainable products

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hvtableware · 1 year ago

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Toxin-Free Sips: The Beauty of Melamine-Free Bamboo Cups for Health-Conscious Drinkers

As people become more health conscious and environmentally aware, the demand for toxin free and eco friendly drinkware has been on the rise. Melamine free bamboo cups are gaining popularity as an excellent alternative for health conscious drinkers. In this article, we explore the benefits of using melamine free bamboo cups and how they cater to the needs of health conscious individuals.

No Harmful Toxins: Melamine is a chemical compound commonly used in the production of some plastic and ceramic food containers and drinkware. However, there have been concerns about the potential health risks associated with melamine, as it can leach into food and beverages when exposed to heat. Melamine free bamboo cups offer a safer option, ensuring that no harmful toxins come into contact with your drinks.

Natural and Renewable Material: Bamboo is a fast growing, renewable resource that requires minimal water and no pesticides or fertilizers to grow. Choosing bamboo cups promotes sustainable practices and reduces the reliance on non renewable resources like traditional plastics.

Biodegradable and Eco Friendly: melamine free bamboo cups are biodegradable, meaning they break down naturally over time without causing harm to the environment. Unlike plastic cups that can persist in landfills for hundreds of years, melamine free bamboo cups contribute to reducing plastic waste and promote a more eco friendly lifestyle.

Lightweight and Durable: melamine free bamboo cups are lightweight and durable, making them easy to carry around for on the go use. They are less likely to break compared to ceramic cups, making them a practical and long lasting choice for daily use.

Insulating Properties: Bamboo has natural insulating properties, which means that bamboo cups can help keep your beverages at the desired temperature for a longer time. Whether you want to keep your drinks hot or cold, bamboo cups can provide effective insulation without the need for additional materials like foam or plastic.

Stylish and Unique Designs: Bamboo cups offer a wide range of stylish and unique designs, catering to various preferences and aesthetics. They can add a touch of natural beauty to your drinkware collection and make sipping your favorite beverages a delightful experience.

Easy to Clean: Melamine free bamboo cups are relatively easy to clean and maintain. They are usually dishwasher safe and can be hand washed without much effort. Unlike some plastic cups, they don't absorb stains and odors, ensuring a fresh and hygienic drinking experience.

Non reactive Material: melamine free bamboo cups are nonreactive, meaning they won't interact with acidic or alkaline beverages, preserving the original taste and quality of your drinks.

Contribution to Sustainable Brands: By choosing melamine free bamboo cups, you support brands and businesses that prioritize sustainability and responsible manufacturing practices. Your purchase encourages the growth of eco friendly alternatives in the market.

In conclusion, melamine free bamboo cups offer a range of benefits for health conscious drinkers. From providing toxin free and eco friendly alternatives to being lightweight, durable, and easy to clean, bamboo cups are an excellent choice for those seeking a more sustainable and healthy lifestyle. By choosing bamboo cups over traditional plastic or melamine options, you can enjoy toxin free sips while making a positive impact on the environment and supporting sustainable practices.

#melamine free bamboo cups

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preety0896 · 3 months ago

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https://handyclassified.com/melamine-foam-manufacturing-plant-report-project-economics-requirements-and-cost-analysis

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flexipol1foams · 2 years ago

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Dive into Acoustic Foams: A Closer Look at Improving Sound Quality

Acoustic foam is typically made from open-cell polyurethane foam or melamine foam. These foams have a porous structure that helps to trap sound waves as they pass through the material. The foam absorbs the sound energy, converting it into small amounts of heat, thus reducing the reflection of sound.

The benefits of acoustic foam include:

Acoustic foam offers several benefits when used in environments where sound control is desired. Some of the key advantages of acoustic foam include:

1. Sound absorption, reducing reflections and reverberations.

2. Minimizing echo and improving acoustic clarity.

3. Controlling and reducing noise levels.

4. Enhancing privacy and concentration in various settings.

5. Customizable and aesthetically pleasing.

6. Easy installation on walls and ceilings.

Types of acoustic foam:

There are several types of acoustic foam manufacturers in India available, each with its own characteristics and applications. Here are some common types of acoustic foam:

1.Wedge Foam: Wedge-shaped foam panels with angled surfaces. They provide effective sound absorption and are often used to reduce echoes and improve sound clarity in recording studios, home theaters, and other environments.

2.Pyramid Foam: Pyramid-shaped foam panels with pyramid projections on the surface. These projections enhance sound diffusion and absorption, making pyramid foam suitable for controlling reflections and echoes in various settings.

4.Cadbury foam: Cadbury Acoustic Foam is the ultimate solution for achieving optimal sound quality in any space. Specially designed with advanced acoustical properties, our foam effectively absorbs and diffuses sound waves, reducing unwanted echoes and reverberations. Crafted with precision and backed by years of expertise, Cadbury Acoustic Foam delivers exceptional performance in recording studios, home theaters, offices, and more. Our high-density foam ensures superior noise control, allowing you to create a perfectly balanced and immersive sound environment.

5.Trubo foam: Turbo Acoustic Foam: the ultimate solution for superior sound control. Our high-quality acoustic foam is specifically designed to effectively absorb and reduce unwanted echoes, reverberations, and noise reflections in any space. With its advanced construction and precise engineering, Turbo Acoustic Foam enhances sound clarity, creating an optimized listening or recording environment.

Wrapping up

Flexipol Foams has established itself as a leading manufacturer of pu foam manufacturers in India. With their expertise, diverse product range, focus on quality and innovation, strong market presence, advanced infrastructure, and commitment to sustainability, they have positioned themselves as a leading player in the industry.

#acoustic foam manufacturers in india #pu foam manufacturers in india

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that-cunning-witch · 2 years ago

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Anti-modern science scumbags love to tell you that you're wrong because [insert] consumable is carcinogenic... here are a *few* things that are *actually* carcinogenic according to the IARC/WHO:

The whole point of this list is not to make you feel extitental dread. Instead, it's supposed to make you realize that if these fucking morons want to avoid cancer at all costs and harass others while doing so because of their massive superiority complex, then good fucking luck to them.

(As of May 5th, 2023) [Most explanatory notes are summarized from the NIH/NCBI or EPA] Key: (IARC/WHO notes) [my notes]

Group 2B: Possibly carcinogenic [limited evidence]

Aloe vera, whole leaf extract

Bitumens [aka asphalt]

Bracken fern

Carpentry and joinery [as in the labor]

Diesel fuel, marine

Dry cleaning

Engine exhaust (gasoline)

Fuel oils (residual, heavy)

Gasoline

Goldenseal root powder

HIV (type 2)

HPV (types 26, 53, 66, 67, 70, 73, and 82)

HPV types 5 and 8 in people with EV

Magnetic fields, extremely low frequency

Pickled vegetables (traditional Asian)

Printing processes

Progestins

Progestogen-only contraceptives

Radiofrequency electromagnetic fields [EMF]

Textile manufacturing industry

N-Nitrosopiperidine [found in cigarette smoke along with meats and cheeses preserved with sodium nitrate]

Sterigmatocystin [made by common Aspergillus fungi found in grain-based products, grains, cheeses, coffee, spices, and beer a la mold]

PhIP (2-Amino-1-methyl-6-phenylimidazo[4,5-b]pyridine) [formed when meat is cooked at high temperatures]

Acrylonitrile [used in acrylic fiber and textile productions]

Vinyl acetate [used to make paints and coatings]

Melamine [plates, utensils, paper, boards, etc.]

Furan [found in canned/jarred foodstuffs such as soups, sauces, baby foods, beans, and pasta meals]

Pyridine [used to make medicines, vitamins, food flavorings, pesticides, paints, dyes, rubber products, adhesives, and waterproofing fabrics]

Diethanolamine [helps in the formulation of laundry detergent, dishwashing detergent, cosmetics, shampoos, and conditioners]

Benzophenone [found in lip balm, nail polish, hypnotic drugs, antihistamines, plastics, and other pharmaceuticals]

Diphenylamine [plant growth regulator and to combat storage scald on apples [what we would call bruises]]

Primidone [medication used to control epilepsy and stop seizures]

Griseofulvin [antifungal treatment for ring worm, athlete's foot, and jock itch]

Carbon black [pigment, strengthens tires, uv stabilizer, etc.]

Titanium dioxide [dye used in paper, ceramics, rubbers, textiles, paints, inks, and cosmetics]

Aramite® [insecticide + acaricide]

Talc-based body powder (perineal use of)

Digoxin [known by brand names Digox, Lanoxin, and Lanoxin Pediatric, it's a medication used to help heart failure, arrhythmias, and blood pressure]

Lasiocarpine [found in Heliotropium arbainense and Heliotropium suaveolens]

Ochratoxin A [mycotoxin made by Penicillium and Aspergillus, found in water-damaged houses and heating ducts]

Zidovudine (AZT) [also goes by Retrovir, it's an HIV antiviral medication]

Monocrotaline [found in in the Crotalaria genus of plants]

Caffeic acid [made by all plants but is present in consumption levels of coffee, wine, tea, and various medications such as propolis]

Perfluorooctanoic acid (PFOA) [part of the PFAS group of chemicals, found in non-stick products, stain-resistent products, food packaging, and fire-fighting foam]

Triamterene [aka Dyrenium, medication that helps with fluid retention/edema and high blood pressure]

Metronidazole [brand names include Metrogel, MetroCream, and Nuvessa, an antibiotic used to treat infections in a wide variety of manners including STDs/STIs and rosacea)

Phenobarbital [also known as phenobarbitone, phenobarb, or brand name Luminal, it's a medication that helps with epilepsy and alcohol withdrawal]

Gentian violet [also known as Leucogentian violet, it's used to treat skin fungal infections]

Phenytoin [known by brand names Phenytek, Dilatin Infatabs, and Dilantin Kapseal, it's an anticonvulsent [treats/prevents seizures]]

Sulfasalazine [brand names include Azulfidine and Azulfidine EN-tabs, it helps with rheumatoid arthritis and ulcerative colitis]

Oxazepam [benzodiazepine medication used to help with anxiety, depression, and alcohol withdrawal]

Magenta [as in the color/dye]

Citrus Red No. 2 [used since 1956 to color oranges]

Trypan blue [blue dye used in textiles, specifically cotton]

Lead

Nickel, metallic

Zalcitabine [also known as Hivid, used for HIV/AIDS treatment]

Potassium bromate ["flour improver" and is found in many packaged goods]

Bitumens, occupational exposure to straight-run bitumens and their emissions during road paving [again, asphalt]

Pulegone [present in in the leaves of several plants in the mint family]

Kava extract

Ginkgo biloba extract

Methyleugenol [found in various plants, usually to help with pollination, but is also a volatile flavor compound in the juice of Kogyoku apples]

Group 2A: Probably carcinogenic [more evidence but disputable]

Androgenic (anabolic) steroids

Art glass, glass containers and pressed ware

Biomass fuel (primarily wood), indoor emissions from household combustion of

Frying, emissions from high-temperature

Hairdresser or barber

HPV type 68

Lead compounds, inorganic

Malaria (caused by infection with Plasmodium falciparum in holoendemic areas)

Night shift work (NB Volume 98 evaluated shiftwork that involves circadian disruption)

Nitrate or nitrite (ingested) under conditions that result in endogenous nitrosation [forming within the organism]

Non-arsenical insecticides

Petroleum refining

Red meat

Very hot beverages at above 65 °C (drinking)

Styrene

Pioglitazone [also known as Actos, used to help treat type 2 diabetes]

Malathion [brand name Ovide, often used as an insecticide and can apparently treat head lice]

Chlorozotocin [used for cancer therapy]

Chloramphenicol [antibiotic for serious bacterial infections]

Bitumens, occupational exposure to oxidized bitumens and their emissions during roofing [asphalt]

Methyl methanesulfonate [used in cancer treatment]

Cobalt metal (without tungsten carbide or other metal alloys)

Cobalt metal with tungsten carbide

Acrylamide [naturally forms when foods are cooked at high temperatures]

Group 1: Carcinogenic [nondisputable evidence]

Acheson process, occupational exposure associated with [process of making graphite]

Alcoholic beverages

Aluminium production

Areca nut [aka betel nut]

Auramine production

Coal gasification

Coal, indoor emissions from household combustion of

Engine exhaust, diesel

Estrogen therapy, postmenopausal

Estrogen-progestogen menopausal therapy (combined)

Estrogen-progestogen oral contraceptives (combined)

Firefighter (occupational exposure as a)

Hepatitis B virus (chronic infection with)

Hepatitis C virus (chronic infection with)

HIV type 1 (infection with)

HPV type 16, 18, 31, 33, 35, 39, 45, 51, 52, 56, 58, and 59

Ionizing radiation (all types)

Iron and steel founding (occupational exposure during)

Isopropyl alcohol manufacture using strong acids

Leather dust

Magenta production [as in the color/dye]

Mineral oils, untreated or mildly treated

Nickel compounds

Opium consumption

Outdoor air pollution

Outdoor air pollution, particulate matter in

Painter (occupational exposure as a)

Phenacetin

Phenacetin, analgesic mixtures containing [pain and fever-reducing medication]

Processed meat (consumption of)

Rubber manufacturing industry

Salted fish, Chinese-style

Solar radiation (see Ultraviolet radiation (wavelengths 100–400 nm, encompassing UVA, UVB, and UVC); Ultraviolet radiation from welding; and Ultraviolet-emitting tanning devices)

Soot (as found in occupational exposure of chimney sweeps)

Tobacco smoke, second-hand

Tobacco smoking

Tobacco, smokeless

Ultraviolet radiation from welding (see Ultraviolet radiation (wavelengths 100–400 nm, encompassing UVA, UVB, and UVC); Ultraviolet-emitting tanning devices; and Solar radiation)

Ultraviolet radiation (wavelengths 100–400 nm, encompassing UVA, UVB, and UVC) (see Ultraviolet radiation from welding; Ultraviolet-emitting tanning devices; and Solar radiation)

Ultraviolet-emitting tanning devices (see Ultraviolet radiation (wavelengths 100–400 nm, encompassing UVA, UVB, and UVC); Ultraviolet radiation from welding; and Solar radiation)

Welding fumes

Wood dust

X- and Gamma-Radiation

Tamoxifen [estrogen modulator to help treat breast cancer]

Asbestos (all forms, including actinolite, amosite, anthophyllite, chrysotile, crocidolite, tremolite)

Aflatoxins [produced by Aspergillus fungi found in corn, peanuts, cottonseed, and tree nuts]

Treosulfan [brand name Trecondi, is given to patients prior to receiving a bone marrow transplant]

Aristolochic acid [found in plants including Aristolochia and Asarum]

Azathioprine [brand name Azasan, it's an immunosuppressive drug used to treat rheumatoid arthritis]

Formaldehyde

Cyclosporine [medication that helps prevent organ rejection]

Ethanol in alcoholic beverages

Coal-tar pitch

Benzene

Plutonium

Arsenic and inorganic arsenic compounds

Beryllium and beryllium compounds

Cadmium and cadmium compounds

Vinyl chloride [helps make PVC, wire coatings, vehicle upholstery, and plastic kitchen ware]

Acetaldehyde associated with consumption of alcoholic beverages

Misc [level not stated]

Boot and shoe manufacture and repair (see Leather dust, Benzene)

Continuous glass filament (see Glass filament)

Diesel engine exhaust (see Engine exhaust, diesel)

Foreign bodies (see Ceramic implants, Dental materials, Implanted foreign bodies, Metallic implants, Organic polymeric materials, Orthopaedic implants, Polymeric implants, Silicone breast implants)

Furniture and cabinet making (see Wood dust)

Gamma-Radiation (see X- and Gamma-Radiation)

Gasoline engine exhaust (see Engine exhaust, gasoline)

High-temperature frying (see Frying)

Household combustion of biomass fuel (see Biomass fuel, indoor emissions from household combustion of)

Household combustion of coal (see Coal, indoor emissions from household combustion)

Involuntary smoking (see Tobacco smoke, second-hand)

Mate, hot (see Very hot beverages) [we know it as yerba mate]

Nickel refining (see Nickel compounds)

Oestrogen (see Estrogen)

Oral contraceptives, combined estrogen-progestogen (see Estrogen-progestogen oral contraceptives)

Particulate matter in outdoor air pollution (see Outdoor air pollution, particulate matter in)

Paving and roofing with coal-tar pitch (see Coal-tar pitch)

Sunlamps and sunbeds (see Ultraviolet-emitting tanning devices)

Surgical implants (see Ceramic implants, Dental materials, Implanted foreign bodies, Metallic implants, Organic polymeric materials, Orthopaedic implants, Polymeric implants, Silicone breast implants)

Wood smoke (see Biomass fuel, indoor emissions from household combustion)

Talc containing asbestiform fibres (see Asbestos)

Coal tars (see Coal-tar distillation)

Bitumens, extracts of steam-refined and air-refined; steam-refined, cracking-residue and air-refined bitumens (see Bitumens, occupational exposures) [asphalt]

#science #medicine #who #world health organization #carcinogenic #modern medicine #tw drugs #tw cancer

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