On the afternoon of March 11th, the "2015 Summit for Innovative Digital Inkjet Printing Technology Innovation and Development Forum" took place in the M4-02 conference room on the second floor of Hall 3 at the National Convention & Exhibition Center (Shanghai). This event brought together leading companies from around the world in the digital printing industry, including Hewlett-Packard, Kim Heng Fung, Fujifilm, Komax, and Agfa. These industry giants showcased their latest advancements in digital inkjet printing technology and explored its growing applications in advertising, printing, and packaging. They also shared insights into innovative cases such as digital inkjet and UV flat panel technologies, while discussing future trends and improvements in the field.
Qinchao Hua, Pre-sales and Solution Manager at China Hewlett-Packard Co., Ltd., presented on the continuous innovation in wide-format digital printing technology. He introduced HP’s GSB Digital Graphic Arts and highlighted how HP continues to push the boundaries of this technology through real-world case studies. As a market leader, HP offers a comprehensive range of services with extensive intellectual property covering diverse applications. The HP Sagittarius FB 10000 industrial press, featuring HP's High Dynamic Range (HDR) technology, provides an advanced solution for high-end industrial printing. Compared to other technologies, HP’s HDR maintains precise control while enhancing performance and capabilities.
HP is also focused on improving efficiency across various printing methods, from screen to offset and flexo printing, helping customers achieve both quality and productivity. Hua provided examples of HP’s wide-format equipment being used by companies like Taiwan Jianhao Printing and Xiamen Hexing Packaging. He emphasized that the main application areas for the FB 10000 will be commercial display racks, large packaging products, and corrugated paper.
Yan Changning, Vice President of Beijing Jinhengfeng Technology Co., Ltd., discussed the company’s digital development journey. He outlined Jinhengfeng’s history, R&D strength, market presence, and future vision. The company invests over 15% of annual sales into R&D, showing a strong commitment to long-term growth. The establishment of an application center marks a shift toward customer-focused solutions, aiming to help clients expand into new markets. Jinhengfeng collaborates closely with major printhead manufacturers to ensure cutting-edge technology and provide advanced equipment to customers.
Chen Wei, Senior Product Manager at Fujifilm, spoke about the driving forces behind the company’s success. Fujifilm, a global leader in multiple industries, has a significant presence in printing, which accounts for 34% of its revenue. In large-format printing, Fujifilm believes UV technology will dominate, and it is dedicated to offering cost-effective, high-productivity solutions. He introduced the Onset R40i, a 2014 product that represents Fujifilm’s forward-looking approach. As a leader in UV ink technology, Fujifilm continues to innovate and deliver high-quality solutions to the market.
Pang Tiejun, CEO of Ke Mei Printing Development Co., Ltd., presented on Konica Minolta’s inkjet technology. He outlined Kemei Group’s business areas, including commercial systems, digital printing, healthcare, optical instruments, and functional materials. In the inkjet printing sector, Kemei focuses on inks, nozzles, and printers. He detailed Kemei’s applications in sign printing, textile printing, and electronic manufacturing. With a strong market presence in advertising, Kemei’s KM series printers are widely recognized. In packaging, the demand for high-speed variable data printing, such as barcodes and personal addresses, is increasing, and anti-counterfeiting is becoming a key trend. The small nozzle spacing of KM series nozzles makes them suitable for 3D object printing.
He concluded that inkjet printing is gaining wider adoption, with growing potential. Factors such as nozzle accuracy, droplet size, firing frequency, nozzle lifespan, and cost are becoming more critical. Environmentally, he noted that inkjet printing significantly reduces waste and carbon emissions compared to traditional screen printing.
Lin Cheng, Deputy Manager of Business Development at Agfa, introduced the company’s integrated solutions across six key segments: commercial printing, signage and display, newspapers, packaging and labels, industrial printing, and security printing. Agfa provides comprehensive solutions, including equipment, print heads, inks, software, and color imaging technology. It has installed over 3,000 logo and display systems worldwide. One-sixth of all wide-format digital prints globally use Agfa UV inks. Agfa’s R&D team continuously develops next-generation technologies, focusing on print heads and system maintenance.
Lin described Agfa’s industrial inkjet equipment in detail, noting that it offers different formats, speeds, layers, and varnish options. Agfa’s expertise in UV inkjet technology is well-established, with a solid foundation in research, production, and collaboration with leading printhead manufacturers. Its specialized inks for industrial applications feature fine pigment dispersion, low odor, high efficiency, and compatibility with traditional UV and UV LED curing systems. These inks offer long shelf life and superior performance.
Medical Grade Polymers
Our main products are The Biomedical Matrials: Poly (L-latic acid) PLLA, Poly(D-lactic acid) PDLA, Poly(DL-latic acid) PDLLA, Polycaprolactone PCL and their copolymers such as PLGA, PDLGA, PLCL, PEG-PLLA, PEG-PDLLA ,PEG-PLGA,PEG-PDLGA etc.
We also can provide you PLA/PCL/PLGA/PDLGA microspheres.The particle size of microspheres is from 5 microns to 30 microns.
Medical grade polymers are a type of plastic material that are specifically designed and manufactured to meet the stringent requirements for use in medical applications. These polymers offer several advantages over traditional materials such as metals, ceramics, and glass in terms of their biocompatibility, versatility, and cost-effectiveness. Some of the key advantages and applications of medical grade polymers include:
Biocompatibility: Medical grade polymers are designed to be biocompatible, which means that they do not cause an adverse reaction or toxicity when they come into contact with living tissue. This property makes them ideal for use in medical implants, drug delivery systems, and other medical devices.
Versatility: Medical grade polymers are highly versatile and can be molded into a variety of shapes and sizes. They can also be modified with different additives to enhance their properties such as flexibility, strength, and thermal stability. This versatility allows them to be used in a wide range of medical applications.
Cost-effectiveness: Medical grade polymers are generally more cost-effective than other materials such as metals and ceramics. This is because they can be manufactured in large quantities using injection molding or other high-volume production techniques.
Resistance to corrosion and wear: Medical grade polymers are highly resistant to corrosion and wear, which makes them ideal for use in medical devices that are exposed to bodily fluids and other harsh environments.
Some of the key applications of medical grade polymers include:
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Medical implants: Medical grade polymers are commonly used to manufacture implants such as artificial joints, dental implants, and pacemakers. These materials provide a high level of biocompatibility and can be easily molded into the required shape.
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Drug delivery systems: Medical grade polymers are also used to manufacture drug delivery systems such as capsules, pumps, and patches. These materials can be designed to release drugs at a controlled rate, which can improve their efficacy and reduce side effects.
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Medical devices: Medical grade polymers are used to manufacture a wide range of medical devices such as syringes, catheters, and tubing. These materials are highly versatile and can be designed to meet specific requirements such as flexibility, strength, and durability.
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Packaging: Medical grade polymers are also used to manufacture packaging materials for medical devices and pharmaceutical products. These materials provide a high level of protection and can be designed to meet specific requirements such as moisture resistance and gas permeability.
Overall, medical grade polymers offer several advantages over traditional materials in terms of their biocompatibility, versatility, and cost-effectiveness. These properties make them ideal for use in a wide range of medical applications.
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