市場調查報告書
商品編碼
1351120
至 2030 年脫模劑市場預測:依細分市場和地區分類的全球分析Mold Release Agents Market Forecasts to 2030 - Global Analysis By Product Type, Type, Application and By Geography |
根據 Stratistics MRC 的數據,2023 年全球脫模劑市場規模為 21.5 億美元,預計在預測期內年複合成長率為 7.7%,到 2030 年將達到 36.2 億美元。
脫模劑用於防止基材黏附到成型表面。在沒有脫模劑的情況下,鑄造材料將黏合在模具上。成型製程的品質和效率會受到顯著影響。這些脫模劑是複合材料、塑膠和橡膠材料成型過程中的重要元素,透過在基材和模具表面之間形成隔離壁來發揮作用。
根據經合組織統計,自2000年以來,中國與南美洲的貿易額增加了22倍。中國是巴西、阿根廷、秘魯和智利最大的貿易夥伴,投資領域從能源到航空和領域。
壓鑄和橡膠成型是使用脫模劑的兩大產業。由橡膠和壓鑄製成的產品最常用於汽車行業。脫模劑用於輪胎製造。另一方面,壓鑄主要用於汽車製造金屬零件。全球汽車需求的不斷成長正在推動汽車生產,這就是為什麼壓鑄在汽車行業中廣泛應用的原因。脫模劑也常用於建築業,因為它們能夠防止水泥和混凝土粘附到用於成型的表面,如膠合板、鋼和鋁,從而推動脫模劑市場的成長。
提供更高表面品質並減少孔隙率的替代不沾塗層的廣泛使用是全球對脫模劑需求的主要障礙。此外,世界各國政府對揮發性有機化合物的排放制定了嚴格的法規。因此,製造商被迫轉向替代脫模劑。此外,水性脫模劑的穩定性問題和生物損傷可能更常見。水性脫模劑比溶劑型脫模劑蒸發得更慢,因此它們可能不適合常溫成型或週期時間短的成型。
隨著零件需求的增加,汽車領域的橡膠成型業務不斷擴大。此外,透過使用脫模劑,您可以顯著降低營運成本和時間,同時提高產量。此外,這些脫模劑可提供更好的表面品質並解決孔隙率問題。為了響應不斷增加的旨在減少揮發性有機化合物(VOC)排放的環境立法,許多領先製造商正在開發發性有機化合物排放水平較低的環保脫模劑,這推動了市場的成長。
溶劑型脫模劑含有碳氟化合物和其他揮發性碳氫化合物。有些溶劑型脫模劑排放富含揮發性有機化合物 (VOC) 的氣體。北美和歐洲國家都有法律要求對這些脫模劑進行特定的處理和處置程序。由於 EPA(環保署)清潔空氣和清潔水的要求,禁止使用含有超過 25% 柴油或家用暖氣油的脫模劑。此外,運輸部(DOT) 限制使用高度易燃且含有高揮發性有機化合物的脫模劑。
在為阻止病毒傳播而實施的封鎖和限制措施期間,許多公司減少或暫時停止了工業活動。對脫模劑的需求可能受到工業活動暫停的影響。因此,未來年度該行業的發展預計將受到COVID-19感染數量的下降以及政府和非政府組織隨後採取的配合措施的推動。
由於消費者使用環保產品的意識不斷增強,水性脫模劑領域預計將擁有最大的市場佔有率。水性脫模劑可以透過冷卻模具產生脫模劑,技術上與溶劑型脫模劑的作用相同。脫模劑通常用於成型工業,因為它們不易燃且是水基的。因此,對用於家具、床上用品、汽車座椅、汽車內裝和鞋底等各種用途的聚氨酯的需求不斷增加,正在推動該行業的發展。
由於鋅等低熔點金屬和合金被廣泛用於鑄造包括引擎缸體在內的大型零件,並且全球範圍內對鋁和鎂等金屬的需求不斷增加,壓鑄領域不斷發展。預測期內的成長。將該技術整合到汽車、家用電器、船舶、工業機械、建築金屬製品、辦公設備和航太等各種行業和領域,可能會刺激市場擴張。
由於中國、印度和馬來西亞的經濟成長,由於生活方式的改變和健康意識的提高,烘焙產品的消費量不斷增加,預計亞太地區將在預測期內佔據最大的市場佔有率。此外,快速的都市化以及對住宅、企業、家具、消費品、汽車等的需求不斷成長,預計將增加對人造板、鋼材、PU泡沫、水泥、混凝土等建築材料的需求。 對模具的需求脫模劑預計將增加。
預計北美在預測期內的年複合成長率最高。這是因為該地區的主要公司專注於擴大其製造設施並將更先進和創新的產品推向市場。地區政府機構儘早採用尖端生產技術並實施許多法規標準,正在為市場擴張創造新的前景。
According to Stratistics MRC, the Global Mold Release Agents Market is accounted for $2.15 billion in 2023 and is expected to reach $3.62 billion by 2030 growing at a CAGR of 7.7% during the forecast period. In order to stop a substrate from adhering to a molding surface, mold release agents are utilized. The casting material would bond to the mold in the absence of a mold release barrier. The quality and efficiency of the molding process may be significantly impacted by this. These agents are a crucial component of the molding process for composite, plastic, and rubber materials and function by putting up a wall between the substrate and the mold's surface.
According to the OECD, China's trade flow with South America has increased up to 22 times since 2000. China is the biggest trading partner of Brazil, Argentina, Peru, and Chile, investing in everything ranging from energy to aircraft and infrastructure which will drive the demand for mold release agents which are used in construction and aerospace.
Die casting and rubber molding are the two main industries that employ mold release agents. Products made of rubber and diecasting are utilized most often in the automobile industry. The manufactures of tires involve the use of mold release agents. Whereas die casting is largely used in the automotive sector to create metal car body pieces. The increase in global demand for vehicles is what propels the production of autos which are therefore employed more often in the industry. In addition due to its ability to prevent cement or concrete from adhering to surfaces used for molding, such as plywood, steel, or aluminum, mold release agents are also often employed in the construction industry which encourages in the growth of the mold release agents market.
The widespread availability of alternative nonstick coatings, which offer a higher surface quality and decrease porosity, severely hampers the demand for mold releasing agents worldwide. Furthermore, governments from a number of nations throughout the world have put strict restrictions on the emissions of volatile organic compounds. As a result, manufacturers are being compelled to transition to alternate mold releasing agents. Additionally, stability problems and biological assault may be more common with water-based release agents. Water-based release agents may not be suitable for all room temperature molding processes or operations with short cycle periods since they evaporate more slowly than their solvent-based counterparts.
The need for casting components has increased, and rubber molding operations in the automobile sector which have expanded along with it. Moreover the use of mold release agents considerably decreases operating expenses and time while multiplying production. Additionally, these agents provide a better surface quality and solve the porosity problem. Numerous major manufacturers are concentrating on the development of environmentally friendly mold release agents with the lower level of volatile organic compound emissions in response to the increasing number of environmental laws aimed at reducing emissions of volatile organic compounds (VOCs) thereby propelling the market growth.
CFC and other volatile hydrocarbons are included in solvent-based mold release agents. Some of them emit fumes that are very volatile organic compound (VOC) laden. Both North American and European nations have laws requiring specific handling and disposal procedures for these mold releasing agents. Mold release agents containing more than 25% diesel or home heating oil's are prohibited by EPA (Environmental Protection Agency) requirements for clean air and clean water. Additionally, the use of extremely flammable and high VOC containing release agents is restricted by the Department of Transportation (DOT).
Many companies reduced or temporarily halted their industrial activities during the lockdowns and restrictive measures put in place to stop the virus' spread. The demand for mold release agents might have been impacted by this halt in industrial operations. Therefore, it is projected that the industry development in the approaching years will be driven by the decreased number of COVID-19 cases and the execution of subsequent initiatives by government and non-government organizations.
The water-based mold release agents segment is estimated to have largest market share, due to growing consumer awareness about using eco-friendly goods. They can be employed to chill the die to create mold release agents that function on par with solvent-based release agents in terms of technology. Because they are non-flammable and water-based, mold release agents are often utilized in the molding industry. Thus the industry is being driven by an increase in demand for PU for usage in a variety of applications, including furniture, bedding, automotive seats, car interiors, and shoe soles.
The die-casting segment is anticipated to witness the highest growth during the forecast period, owing to the widespread use of lower melting metals and alloys like zinc for the casting of big parts, including engine blocks, and the rising need for metals like aluminum and magnesium globally. The integration of this technology into a variety of industries or sectors, including as the automotive, home appliance, marine, industrial machinery, construction hardware, office equipment, and aerospace, is likely to spur market expansion.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the rising economies of China, India, and Malaysia which are increasing their consumption of baked products as a result of lifestyle changes and increased health awareness. Moreover, rapid urbanization and rising demand for homes, businesses, furniture, consumer goods, and cars are predicted to increase demand for building materials like wooden panels, steel, PU foams, cement, and concrete, which is predicted to increase demand for mold release agents in this region.
North America is projected to have the highest CAGR over the forecast period; owing to the increased focus on the expansion of manufacturing facilities and the introduction of more advanced and innovative goods into the market by important firms in the region. Early adoption of cutting-edge production techniques and the implementation of a number of regulatory standards by regional government agencies are creating new prospects for market expansion.
Some of the key players profiled in the Mold Release Agents Market include: DuPont, Daikin Industries, Ltd., Ampacet Corporation, Chem Trend L.P, Cresset Chemical, Croda International Plc, Freudenberg Group, Grignard Company, LLC, Henkel AG & Co. KGaA, Lanxess AG, Marbocote Ltd, Mcgee Industries, Inc, Michelman, Inc., Miller-Stphenson, Inc., Moresco Corporation, Parker-Hannifin Corporation, Shin-Etsu Chemical Co. Ltd., Sumico Lubricant Co. Ltd and Wacker Chemie AG.
In July 2023, DuPont Launches first nanofiltration membrane elements for high productivity Lithium-Brine purification, New FilmTec™ LiNE-XD nanofiltration membrane elements feature advanced membrane chemistry to support Direct Lithium Extraction (DLE) operations, which enable Lithium production from more sustainable and accessible sources.
In January 2023, Freudenberg acquires remaining ownership interest in battery manufacturer XALT Energy from joint venture partner MBP Investors. Freudenberg thus becomes sole owner of XALT Energy.
In September 2022, Daikin and Saarathee, India partner to unlock opportunities for Professionals with Disabilities, this initiative aim to provide an equal opportunity platform, bringing together persons with disabilities to engage with Daikin across various outsourcing.