Nano Crystalline Soft Magnetic Materials Market Analysis Reports Revenue Growth during the Forecast Period 2018 To 2028

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Rockville, US, 2018-Dec-11 — /EPR Network/ — The radical role of nano-crystalline soft magnetic materials in several electrical and electronic systems, which has characterized the modern society. Continuous improvements in the properties of these materials have extended their application scope into power generation & transmission, receptors of microwaves & radio signals, electromagnets and magnetic shielding. The nano-crystalline soft magnetic materials are relatively new concept, with the paradigm of increased emphasis on energy conservation accelerating research efforts.

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Leading players in the market are expanding their production capacity to cater growing demand for soft magnetic materials with high-performance characteristics. Hitachi, the pioneer of nano-crystalline soft magnetic materials, in 2017, announced its plan of tripling its production capacity of Finemet nano-crystalline soft magnetic material. The company aims at completion of boosting its production capacity by 2018-end. A new Fact.MR study has envisaged the nano-crystalline soft magnetic materials market to reflect a splendid 10.1% value CAGR in the period of forecast, 2018 to 2028.

Research interests in nano-crystalline soft magnetic materials have surged on the coattails of their unique microstructure and attractive magnetic properties. Innovative nano-crystalline soft magnetic materials have been spearheading electrical and electronics engineering since the recent past. Fact.MR’s recent study foresees the global nano-crystalline soft magnetic materials market to record a spectacular 9.8% volume CAGR between the forecast period 2018 and 2028.

Nano-crystalline Soft Magnetic Materials Market: Automotive Industry Emerges as a Key End-Use Vertical

Automotive industry is demonstrating increased demand for electrical systems that impart enhanced efficiency and reliability. The industry is also seeking compact electrical components as a replacement for large space-occupying components such as inductors. Shifting focus of automakers toward small dimensions for optimizing the overall vehicle efficiency will create new avenues for nano-crystalline soft magnetic materials.

Electro-mobility is considered to be one of the most recent and dynamically emerging area where nano-crystalline soft magnetic materials will seek huge adoption. In electric vehicles, such as plug-in hybrid electric vehicle (PHEV) and battery electric vehicle (BEV), unwanted high-frequency electromagnetic interference (EMI) noise occurs which strains the operations of the computer-controlled self-driving system. Therefore, demand for solid solutions are on the rise as a consequence of EMI, and the requirement will further surge significantly as Silicon devices are being replaced with next-generation semiconductors such as SiC and GaN.

Open designs of EMI chokes are being developed, such as SCHURTER’s new DKIH series, which hold potential in suppressing EMI noise. Additionally nano-crystalline cores are resilient to higher operational temperatures perceived in automotive applications. These benefits of nano-crystalline soft magnetic materials will rub off on their future implementation in automotive applications worldwide.

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Nano-Crystalline Soft Magnetic Materials Complement Development of Next-Gen Noise Suppression Solutions

Innovative soft magnetic materials have become the new normal in electrical engineering, thereby leading to advanced component developments. Toroidal tape-wound cores produced by using nano-crystalline soft magnetic materials such as Vitroperm have been deemed highly effective for interference suppression in common-mode chokes (CMC). Vitroperm has established itself as universal solution for various EMC problems via its incorporation of affordable alloy constituents and large-scale production lines.

Leading industry stakeholders, such as SCHURTER, have expanded their range of existing compensated chokes with the high-current types for use in PCB mounting. The new DKIH series of SCHURTER incorporates a nano-crystalline core, which imparts higher inductance (8x) than the ferrite core versions when placed in similar compact dimension. Open designs are a key focus area among producers of chokes having nano-crystalline soft magnetic materials as their core, which in turn suppress electromagnetic interference (EMI) noise produced by power applications on PCB.

Nano-Crystalline Soft Magnetic Materials: Opportunities Abundant in Automotive and Power Transmission Applications

Electrical systems have perceived increased penetration in automobiles for catering demands of enhanced vehicle reliability and energy efficiency. Compact electrical components are being used as a replacement for large components such as inductors. Inclining interest of automotive manufacturers toward compact dimensions to optimize the operational efficiency of vehicles will create huge opportunities for nano-crystalline soft magnetic materials in the upcoming years. One such fast-emerging application is electro-mobility, wherein these materials are used to counter EMI noise as well as in next-generation semiconductors that include GaN and SiC.

Relatively lower energy loss at low frequency is a distinguishing property of nano-crystalline soft magnetic materials, which has extended their application scope into transformers. These materials tackle energy loss issues faced in transformers, while enabling downsizing of the system. High magnetic permeability, along with robust flux density, of nano-crystalline soft magnetic materials has propelled their employment in power transmission industry, witnessing increased used as transformer cores. Upward trend toward energy conservation has further attracted transformer manufacturers’ interest in using nano-crystalline soft magnetic materials for large transformers.

Table of Content:

  1. Executive Summary
    1.1. Summarizing Key Findings
    1.2. Opportunity Assessment
    1.3. Highlighting Action Area – Wheel of Fortune
  2. Global Nano-Crystalline Soft Magnetic Material Market Overview
    2.1. Introduction
    2.2. Market Definition and Scope
    2.3. Market Taxonomy and Segments Captured
  3. Global Nano-Crystalline Soft Magnetic Material Market Outlook
    3.1. Market Size (US$ Mn) & Volume (tons) and Forecast, 2013-2028
    3.2. Market Y-o-Y Growth
    3.3. Forecast Factors and Relevance of Impact
  4. Global Nano-Crystalline Soft Magnetic Material Market Dynamics
    4.1. Drivers
    4.2. Restraints
    4.3. Opportunities
    4.4. Trends
  5. Supply Chain and Value Chain Assessment
  6. Actionable Insights and Analysis
    6.1. Cost Structure
    6.2. PESTLE Analysis

Continued……………..

Albeit nano-crystalline soft magnetic materials market is at its nascent phase, increased exploration efforts by researchers worldwide is likely to expand the application potential of these materials. Applications of these materials, currently based on singular property, are expected to perceive combination of various desirable properties in the foreseeable future.

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