The Global In-Mold Electronics (IME) Market size is predicted to reach $2.8 billion by 2030, growing at a CAGR of 18.5% during the forecast period 2023-2030. The process of incorporating electronic elements into molded plastic objects, such as semiconductors and sensors, is known as in-mold electronics (IME). Compared to conventional printed circuit boards (PCBs), IME has a number of benefits, including smaller size, lower weight, and superior shock and vibration protection. The demand for smaller, lighter electronic gadgets is the key factor fueling the expansion of the in-mold electronics business which is driving the demand for In Mold Electronics (IME) Market which is anticipated to propel the In Mold Electronics (IME) Market during the forecast period, finds IndustryARC in its recent report, titled “In Mold Electronics (IME) Market Size, Share & Trends Analysis Report By Type, (Silver Conductive Ink Material, Carbon Conductive Ink Material, and Other), By Component (Sensors, Antennas, Connectors and Others), By Technology (Thermoforming, Injection Molding, Film Insert Molding), By Application (Consumer Electronics, Automotive, Home Appliance, Industrial, and Other), By Geography – Global Opportunity Analysis & Industry Forecast, 2023-2030.”

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North America to Register Highest Growth:

Geographically, in the global In-Mold Electronics (IME) Market share, North America is analyzed to grow with a CAGR of 31% highest growth in 2022. Companies started looking into the potential of in-mold electronics for numerous industries, which led to the technology gaining popularity in North America. Benefits provided by the technique included lighter construction, increased design adaptability, and easier manufacturing procedures.

According to Alliance for Automotive innovation 2022, the U.S. exports vehicles or parts to 206 Countries around the world. Developing technology called In-Mold Electronics (IME) combines printed electronics and conventional injection molding techniques to produce smart, useful, and beautiful surfaces. Several businesses, notably the automotive industry, utilize this technology. As consequence of this in mold electronics market expanding in north American region.

In Mold Electronics (IME) Market2023-2030: Scope of the Report

Report Metric

Details

Base Year Considered

2022

Forecast Period

2023–2030

CAGR

18.5%

Market Size in 2030

$2.8 billion

Segments Covered

Type, Component, Technology, Application, and Geography.

Geographies Covered

North America, South America, Europe, APAC, Middle East & Africa

Key Market Players

Canatu

Dupont

Nissha Co., Ltd.

True North Printed Plastics

Intertech

DuraTech Industries

Eastprint Incorporated

Dycotec Materials Ltd.

InMold Solutions

Niebling

 

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In Mold Electronics (IME) Market Report – Key Takeaways:

Silver Conductive Ink Material Segment to Register the Fastest Growth

In the In-Mold Electronics (IME) Market Analysis, the silver conductive ink material segment is estimated to grow with the highest CAGR of 20.1% during the forecast period 2023-2030. The usage of Silver Conductive Ink as a material has attracted a lot of interest in the field of Molded Electronics. A crucial ingredient in the creation of electrical circuits and linkages is silver conductive ink. It is well known for having a high electrical conductivity and being compatible with a number of printing and deposition processes, which makes it the best material for forming conductive traces on both flexible and rigid surfaces. Owing to these the silver conductive ink materials segment is tremendously growing in the forecast period.

Automotive is the Fastest Growing Segment in the Market

According to the In Mold Electronics (IME) Market the Automotive segment is estimated to grow with the highest CAGR of 18.8% during the forecast period 2023-2030. The demand for sophisticated and integrated electronic elements in vehicles, a focus on lightweighting and increasing fuel efficiency, and a desire to improve the aesthetics of vehicle interiors are some of the causes that have contributed to the expansion of IME in the automotive industry. IME technology may also find further uses as the automotive sector continues to investigate advancements in electric and autonomous vehicles.

According to ACEA 2022, Hybrid electric vehicle sales rose by 27.6%, maintaining their upward trend. The growing application of in-mold electronics such as touch sensors and some other components are being used as a trend towards advanced technology is expanding the market for in-mold electronics.

Increasing Adoption of Electronic Components in Automotives

Smaller, lighter electrical components are now feasible owing to IME, which is crucial for the creation of lightweight, fuel-efficient cars. This innovation allows for the replacement of older, bulkier models with electronics that are more compact and portable. For safety, entertainment, and communication, modern cars are equipped with a wide range of electrical components and sensors. By permanently mounting these components to the vehicle’s dashboards, door panels, and steering wheels, IME can hasten the integration of these components.

According to ACEA 2023, in the EU, new battery electric vehicle registrations increased significantly, by 70.9%, this growth is anticipated to increase the production capabilities of the in-mold electronics that are used for electric vehicles such as sensors. The capabilities of in-mold electronics technology are compatible with the use of electronic components in automobiles. For automakers looking to stay competitive in a market that is growing more digital and linked, it offers a variety of advantages, including improved aesthetics, durability, and cost-effectiveness.

High Manufacturing Cost is the Major Challenge.

In comparison to conventional manufacturing materials, the materials used in IME, such as conductive inks, substrates, and specific polymers, might be more expensive. These particular substances offer the required electrical conductivity and are made to work with the injection molding procedure. As a result, material costs can make a sizable contribution to the total cost of manufacturing.

Electronics integration into injection-molded components is a challenging procedure that needs accuracy and knowledge. The procedure involves printing conductive traces and parts onto the mold, pumping plastic over them, then checking the electronics after molding to make sure they work properly. This intricacy can raise labor expenses and failure risks, which raises the cost of manufacturing. Owing to these factors are hinder the growth of the in-mold electronics market.

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Key Opportunity Analysis:

Growing R&D Investments

Growing R&D spending along with in-mold electronics can increase the design and integration of electronic systems, resulting in more innovative products and services in a variety of industries. According to ACEA 2023, The EU’s largest R&D investor is the automotive sector, which accounts for 31% of all spending the usage of in mold electronics in the automotive industry is crucial which is also anticipated to driving the demand for in mold electronics. The use of electronic components in automobiles is compatible with in-mold electronics technology’s capabilities. It is an appealing option for automobile makers trying to maintain their competitiveness in a market that is becoming more digital and linked since it offers a number of benefits like increased aesthetics, durability, and cost-effectiveness.

Advancements in Technology

The relatively new and rapidly growing industry known as in-mold electronics (IME), which combines printed electronics and traditional injection molding techniques, makes it feasible to create electronic components and systems directly inside a product’s mold. Recent advances in materials, production processes, and applications have helped this technology advance significantly. Improvements in substrates, dielectric materials, and conductive inks have been essential for enhancing the functionality and longevity of IME components. Materials that are more durable, flexible, and appropriate for injection molding are constantly being developed by researchers and producers.

Presently IME technology has advanced, and a number of sensors, including capacitive touch sensors, force sensors, and environmental sensors, can be directly integrated into products. This makes it possible for sensing features to be seamlessly incorporated into a range of applications, from consumer electronics to automotive interiors. owing to the possibility of producing thinner, lighter, and more sustainable electronic components when compared to standard PCBs, IME technology is useful given the growing focus on sustainability and lowering electronic waste.

Growing Developments of Major Companies

Growing number of developments such as partnerships, mergers, and investments in the in-mold electronics sector which is anticipated to propelling the growth of the in-mold electronics market. For instance, in September 2022, the controlled-viscosity molding technology of injection molding pioneer X2F has collaborated with material supplier Covestro to create a thermally conductive automobile heat sink with in-mold electronics. For automobile OEMs and processors, this novel product is intended as a replacement for cast aluminum heat sinks. Up to 49% less weight and more financial efficiency. With many companies and collaborations engaged in its development, the field of In-Mold Electronics (IME) was a developing technology. IME creates integrated electronic components by combining traditional injection molding techniques with printed electronics owing to this growing demand for in mold electronics sector.

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The Report also Covers the Following Areas:

In Mold Electronics (IME) Market Size and Forecast

In Mold Electronics (IME) Market Trends

In Mold Electronics (IME) Market Analysis by Deployment Type

In Mold Electronics (IME) Market2023-2030: Key Highlights

CAGR of the market during the forecast period 2023-2030

Value Chain analysis of key stake holders

Detailed analysis of market drivers and opportunities during the forecast period

In Mold Electronics (IME) Market size estimation and forecast

Analysis and predictions on end users’ behavior and upcoming trends

Competitive landscape and Vendor market analysis including offerings, developments, and financials

Comprehensive analysis of challenges and constraints in the In Mold Electronics (IME) Market.

Covid and Ukrainian Crisis Impact:

The COVID-19 epidemic has forced some small- and medium-sized business owners to function with a reduced staff, while many other companies quickly cut off employees hired in non-essential departments as a result of their limited ability to conduct business. Due to the worldwide sluggishness caused by the economy, many businesses have also reduced their budgets set aside for the production of electronics. Additionally, a decrease in output has been caused by a lack of demand from distributors, supply chain participants, and component makers. As a result, the market for in-mold electronics has been seeing a sharp decline in demand in 2020.

The invasion of Ukraine by Russia in 2022 caused global disruptions in the markets. Russia and Ukraine both have substantial contributions to make to the world’s supply of electronics. Particularly in the fabrication of semiconductors, Ukraine is well-represented. The availability and cost of the components used in Molded Electronics could be impacted by any interruptions in the supply of electronic components from these nations as a result of geopolitical tensions, sanctions, or trade restrictions

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List of Key Market Players in In Mold Electronics (IME) Market:

The key companies profiled in the In Mold Electronics (IME) Market Report are listed below:

Canatu

Dupont

Nissha Co., Ltd.

True North Printed Plastics

Intertech

DuraTech Industries

Eastprint Incorporated

Dycotec Materials Ltd.

InMold Solutions

Niebling

Element Solutions Inc

Inno-Flex, LLC

TactoTek

GenesInk

Covestro AG

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Mold Inhibitors Market – The Mold Inhibitors Market size is growing at a CAGR of 7% during the forecast period 2022 to 2027. Globally, the increase in the demand for processed food and cosmetics is one of the major factors driving the mold inhibitors market.

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