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我司主營印刷電子導電功能油墨如下介紹:
印刷電子是一種高效的增材制造技術(shù),可以為每天所依賴的許多產(chǎn)品提供大批量,低成本的制造。
由于印刷電子行業(yè)的發(fā)展以及對3D制造和物聯(lián)網(wǎng)的新興趣,有領(lǐng)先的印刷電子應用被用于醫(yī)療和保健,汽車和電子,學習,航空航天等領(lǐng)域。
使用許多不同種類的墨水技術(shù)制造產(chǎn)品。以下列表概述了該行業(yè)中使用的關(guān)鍵印刷電子墨水。
我們的柔性混合電子材料
導電銀油墨
銀是所有金屬中導電性和導熱性最好的。可絲網(wǎng)印刷的銀色油墨為薄膜觸摸鍵盤和許多其他應用提供了極大的靈活性和抗皺性。
絕緣油墨
非導電,可絲網(wǎng)印刷的介電油墨用于塑料薄膜,PET薄膜,以及紙和剛性基底。應用包括薄膜電路,計算機鍵盤,銅蝕刻電路和混合電路。
導電油墨 - 碳
與PET薄膜,塑料薄膜和紙基材,薄膜觸摸開關(guān)和剛性印刷電路板一起使用。
ITO油墨 - (氧化銦錫) - 觸摸屏技術(shù)
氧化銦錫是最廣泛使用的透明導電氧化物之一,因為它具有導電性和光學透明性。它可以很容易地沉積為薄膜。
電容式觸摸屏傳感器由一層或多層玻璃或聚對苯二甲酸乙二醇酯(PET)塑料上的氧化銦錫(ITO)導體陣列制成。
與所有透明導電薄膜一樣,必須在導電性和透明性之間進行折衷,因為增加厚度和增加電荷載流子的濃度會增加材料的導電性,但會降低其透明度。
透明導電絲網(wǎng)印刷油墨
可印刷的透明導電油墨,為某些類型的顯示裝置提供適應性和成本效益的ITO替代品。這些墨水與保護性頂層墨水配合使用,非常適用于工業(yè)觸摸屏,薄膜開關(guān),汽車觸摸屏,背光開關(guān)和印刷LED照明。
力傳感電阻器是從薄膜開關(guān)技術(shù)發(fā)展而來的。在兩種技術(shù)中使用類似的用戶界面設計方法和類似的制造技術(shù)。力傳感器是模擬多位置開關(guān)。相比之下,薄膜開關(guān)只有ON / OFF。壓敏涂層可用于不同種類的基材。
壓力傳感器
傳感器表面施加的壓力越大,電阻越低,電導越大。
該油墨在機械變形時表現(xiàn)出強烈的電阻變化,允許在剛性和柔性或可拉伸基底上實施變形和力傳感器。
該油墨在施加的壓力下產(chǎn)生電壓變化,并且還在電激勵下施加力。墨水可用于傳感器和執(zhí)行器應用。
一些可能的應用領(lǐng)域:
醫(yī)療和保健
機器人,汽車和電子
學習,玩具和游戲
用于不同種類基材的磁敏涂層
該墨水具有產(chǎn)生對磁場變化的電響應的能力??梢杂眠@種墨水制造幾種類型的傳感器和致動器,包括磁場和電流傳感器。
生物傳感器是將生物反應轉(zhuǎn)換為電信號的分析裝置。葡萄糖測試條,EKG / ECG電極,肌肉刺激墊,藥物輸送墊和其他醫(yī)療電子應用使用印刷電子墨水來提供準確性,可靠性和兼容性。
glucose_test_strip
葡萄糖試紙
RFID銀油墨
RFID技術(shù)應用于護照,信用卡,運輸支付系統(tǒng)等設備中。銀,碳,
Printed electronics is an additive manufacturing technology which is highly efficient, and allows for high volume, cost effective manufacturing for many products which are relied upon every day.
Thanks to the development of the printed electronics industry and the new interest in 3D manufacturing and the Internet of Things, there are leading edge printed electronic applications being used in fields such as medical and healthcare, automotive and electronics, learning, aerospace and more.
manufactures products using many different kinds of ink technologies. The following list is an overview of key printed electronic inks that are used in this industry.
Our Flexible Hybrid Electronics Materials
Silver Conductive Inks
Silver is the most electrically and thermally conductive of all metals. Screen-printable silver inks offer great flexibility and crease resistance for membrane touch keypads and many other applications.
Dielectric Inks
Non-electrically conductive, screen printable dielectric ink is used for plastic film, PET film, and both paper and rigid substrates. Applications include membrane circuits, computer keyboards, copper-etched circuitry and hybrid circuits.
Electrically Conductive Inks – Carbon
Used with PET film, plastic film and paper substrates, membrane touch switches and rigid printed circuit boards.
ITO Inks – (Indium Tin Oxide) – Touchscreen Technology
Indium tin oxide is one of the most widely used transparent conducting oxides because of its electrical conductivity and optical transparency. It can be easily deposited as a thin film.
Dielectric Inks
Non-electrically conductive, screen printable dielectric ink is used for plastic film, PET film, and both paper and rigid substrates. Applications include membrane circuits, computer keyboards, copper-etched circuitry and hybrid circuits.
Electrically Conductive Inks – Carbon
Used with PET film, plastic film and paper substrates, membrane touch switches and rigid printed circuit boards.
A capacitive touchscreen sensor is made from an array of indium tin oxide (ITO) conductors on a layer or layers of glass or polyethylene terephthalate (PET) plastic.
As with all transparent conducting films, a compromise must be made between conductivity and transparency, since increasing the thickness and increasing the concentration of charge carriers will increase the material’s conductivity, but decrease its transparency.
Clear Conductive Screen Printing Inks
Printable transparent conductive inks that provide an adaptable and cost-effective alternative to ITO for some kinds of display devices. These inks are used in conjunction with a protective top layer ink and work great for industrial touch screens, membrane switches, automotive touch screens, backlight switches and printed LED lighting.
Force Sensing Inks
Force sensing resistors have developed from membrane switch technology. Similar user interface design methods and similar manufacturing techniques are used in both technologies. The force sensor is an analog, multi-position switch. A membrane switch, by contrast, has only ON/OFF. Pressure sensitive coating can be used for different kinds of substrates.
pressure-sensor
The more pressure is applied to the sensor surface the lower the resistance and the greater the conductance.
This ink shows strong variation of the electrical resistance upon mechanical deformation, allowing the implementation of deformation and force sensors on rigid and flexible or stretchable substrates.
Pushing on a Pressure Sensor
This ink generates a voltage variation with applied pressure and also applied a force under electrical excitation. The Ink can be applied for sensor and actuator applications.
Some possible area of applications:
Medical and Healthcare
Robotic, Automotive and Electronics
Learning, Toys and Games
Magnetic sensitive coating for different kinds of substrates
This ink has the ability to generate an electrical response to the variation of a magnetic field. Several types of sensor and actuators can be fabricated with this ink, including magnetic field and electrical current sensors.
Biosensors are analytical devices which convert a biological response into an electrical signal. Glucose test strips, EKG/ECG electrodes, pads for muscle stimulation, pads for drug delivery and other medical electronics applications use printed electronic inks to provide accuracy, reliability and compatibility.
glucose_test_strip
Glucose Test Strips
RFID Technology is found in devices like passports, credit cards, transportation payment systems and more. Silver, Carbon,