Kester
Kester is a leading global supplier of assembly materials to the electronic assembly, component and microelectronic marketplaces.
Kester is a leading global supplier of assembly materials to the electronic assembly, component and microelectronic marketplaces. Our products include an array of basic and high-tech attachment materials including traditional soldering chemicals, paste, wire and bar products. We serve a worldwide customer base with facilities in North America, Europe and Asia. Kester offers the following solutions:
- Solder Wire
- Liquid Solder Flux
- Solder Paste
- Tacky Solder Flux (TSF)
- Preforms
- Bar Solder
- SE-CURE™ Advanced Materials for Semiconductor Packaging
- A full spectrum of global customer technical support
Throughout the world, Kester’s products are known for their high quality and advanced technology. Kester’s ISO-14001 and ISO-9001 certifications ensure Kester’s partners of this dedication to quality and environmental responsibility. Our goal is to provide product solutions for the electronics assembly, semiconductor and automotive industries across the world.
Kester History
The company was founded in 1899 as the Chicago Solder Company to produce flux-cored solder. This patented Kester manufacturing process has had a major impact in the electronics industry to this day. Kester recognized the importance of being a global supplier in the electronics industry by establishing manufacturing facilities in Singapore (1969) and in Germany (1972) to better service the Asian and European markets, respectively.
Kester Postings
12 products »
Kester 268 Flux-Cored Wire is a zero-halogen wire optimized for robotic soldering applications. With its unique chemistry system, 268 provides consistent workability performance for both robotic and manual soldering in the electronics industry, with...
NP505-LT is a no-clean, Pb-free, zero-halogen solder paste for assemblies that have temperature sensitive substrates and components. Warping is becoming more evident with the trend towards complex boards and the trend of using thinner and larger pack...
WP616 is a zero-halogen, lead-free, water-soluble solder paste formula for both nitrogen and air reflow applications. WP616 provides a combination of consistent print performance at wide humidity levels, excellent solderability and ease of cleaning,...
Kester’s SELECT-10™ is now available as a Flux-Pen®. SELECT-10™ is a zero-halogen no-clean liquid flux designed specifically for the needs of the selective soldering process. Sustained activity within the flux allows for good...
NP560 is a no-clean, lead-free, halogen-free solder paste. It consistently delivers paste transfer efficiencies of 0.50 to 0.55 AR and is fully capable of printing and reflowing 01005 components, even in air, with minimal graping behavior. In additio...
NF1060-VF Eco-Friendly Soldering Flux
NF1060-VF is a new addition to Kester’s No-Clean, VOC-Free product line. NF1060-VF is zero-halogen (none intentionally added) wave soldering flux that maintains its soldering performance achieving excellent through-hole fill and low-defect s...
Kester wire products have been developed to provide superior performance for hand soldering in the electronics industry. While the globally available preferred products are listed below, other combinations and core fluxes may be available. The Kes...
Lead-free wave and selective soldering systems require exposing the flux to slightly higher soldering temperatures. Lead-free alloys traditionally wet metal surfaces more slowly than tin-lead. Kester liquid fluxes for lead-free assembly have new a...
Kester offers a complete line of solder paste to fit the needs of the electronic assembly market. The preferred products below cover the complete range of application types including No-Clean, Water Soluble, Halogen-Free and Lead-Free....
Kester Tacky Solder Fluxes (TSFs) are the industrial standard for Flip Chip and BGA Sphere Attach. With viscosities optimized for high speed application and holding of a chip or sphere in place prior to reflow, Kester TSF’s enable wide process...
15 technical articles »
Reactivity Of No-Clean Flux Residues Trapped Under Bottom Terminated Components
Jul 20, 2017 | Bruno Tolla, Ph.D., Jennifer Allen, Kyle Loomis - Kester Corporation, Mike Bixenman, DBA - KYZEN Corporation
As electronic devices increase functionality in smaller form factors, there will be limitations, obstacles and challenges to overcome. Advances in component technology can create issues that may have time delayed effects. One such effect is device failure due to soldering residues trapped under bottom terminated components. If the residues trapped under the component termination are active and can be mobilized with moisture, there is the potential for ion mobilization causing current leakage....
How to Use the Right Flux for the Selective Soldering Application
May 17, 2017 | Bruno Tolla Ph.D, Denis Jean, Xiang Wei Ph.D
The selective soldering application requires a combination of performance attributes that traditional liquid fluxes designed for wave soldering applications cannot fulfill. First, the flux deposition on the board needs to be carefully controlled. Proper fine tuning of the flux physicochemical characteristics combined with a process optimization are mandatory to strike the right balance between solderability and reliability. However, localization of the flux residue through the drop jet process is not enough to guarantee the expected performance level. The flux needs to be designed to minimize the impact of unavoidable spreading and splashing events.
From this perspective a fundamental understanding of the relationships between formulation and reliability is critical. In this application, thermal history of the flux residues (from room temperature to solder liquidus) is a key performance driver. Finally, it is necessary to conduct statistically designed experiments on industrial selective soldering machines in order to map the relationships between flux characteristics and selective process friendliness....
Partially-Activated Flux Residue Impacts on Electronic Assembly Reliabilities
Dec 29, 2016 | Yanrong Shi, Ph.D., Kyle Loomis, Jennifer Allen, Bruno Tolla, Ph.D.
The reliabilities of the flux residue of electronic assemblies and semiconductor packages are attracting more and more attention with the adoption of no-clean fluxes by majority of the industry. In recent years, the concern of "partially activated" flux residue and their influence on reliability have been significantly raised due to the miniaturization along with high density design trend, selective soldering process adoption, and the expanded use of pallets in wave soldering process. When flux residue becomes trapped under low stand-off devices, pallets or unsoldered areas (e.g. selective process), it may contain unevaporated solvent, "live" activators and metal complex intermediates with different chemical composition and concentration levels depending on the thermal profiles. These partially-activated residues can directly impact the corrosion, surface insulation and electrochemical migration of the final assembly.
In this study, a few application tests were developed internally to understand this issue. Two traditional liquid flux and two newly developed fluxes were selected to build up the basic models. The preliminary results also provide a scientific approach to design highly reliable products with the goal to minimize the reliability risk for the complex PCB designs and assembly processes.
This paper was originally published by SMTA in the Proceedings of SMTA International
...Lead-free SMT Soldering Defects How to Prevent Them
Oct 23, 2012 | Peter Biocca, Senior Development Engineer
Tin-Silver-Copper alloys are the primary choice for lead-free SMT assembly. Although there are other options available such as alloys containing bismuth or indium and other elements, tin-silver-copper solders, also known as SAC alloys are by far the most popular. They are used by approximately 65% of users, as last surveyed by Soldertec in 2003....
SnCu Based Alloy Design for Lower Copper Dissolution and Better Process Control
Feb 13, 2009 | Peter Biocca, Senior Engineer, Technical Manager; Kester ITW,
To meet the market demand for a best-in-class, low-cost leadfree alloy for wave, selective and dip soldering...
Creating Solder Joint Reliability with SnCu Based Solders Some Practical Experiences
Jan 15, 2009 | Peter Biocca, Senior Market Development Engineer, Kester.
Tin-silver-copper has received much publicity in recent years as the lead-free solder of choice. SAC305 was endorsed by the IPC Solder Value Product Council in the United States as the preferred option for SMT assembly; most assemblers have transitioned to this alloy for their solder paste requirements. The SAC305 alloy due to its 3.0% content of silver is expensive when compared to traditional 63/37 for this reason many wave assemblers are opting for less costly options such as tin-copper based solders for their wave, selective and dip tinning operations....
Lead-Free Reliability - Building It Right The First Time
Jul 01, 2008 | Peter Biocca
As lead-free and RoHS compliancy fast approaches, it is more important than ever to build it right the first time. Lead-free assembly and RoHS will bring about numerous changes and the number of variables with which to contend is increasing, creating increased risk of defects and reduced product reliability. However, understanding what the variables are and their impact on the assembly can great increase product reliability....
Developing a Reliable Lead-free SMT Process
Jan 03, 2008 | Peter Biocca, Senior Development Engineer, Kester.
Lead-free SMT can be achieved reliably if several process requirements are implemented carefully. Some of the variables to account for are listed below. The most common alloys used in lead-free SMT are tin-silver-copper alloys; these alloys all have a meting range between 217- 220°C. These alloys all melt at higher temperatures than traditional leaded solders such as the 63/37which has a melting point of 183 °C....
Nov 15, 2007 | Peter Biocca, Carlos Rivas
At the contractor level once a product is required to be soldered with lead-free solders all the processes must be assessed as to insure the same quality a customer has been accustomed to with a Sn63Pb37 process is achieved. The reflow, wave soldering and hand assembly processes must all be optimized carefully to insure good joint formation as per the appropriate class of electronics with new solder alloys and often new fluxes....
Manufacturing Considerations When Implementing Voc-Free Flux Technology
May 07, 1999 | David Scheiner, Senior Technical Service Engineer Kester
In 1990 the United States Environmental Protection Agency Issued the Clean Air Act. The Clean Air Act and subsequent amendments are designed to limit the use of chemicals that contain volatile organic compounds (VOCs). The document goes into great detail setting limits for allowable VOC emissions for different industries....
54 news releases »
Kester to Exhibit at IPC APEX EXPO 2020
Jan 15, 2020 | Kester will be exhibiting (booth #818) at IPC APEX Expo 2020.
Kester Launches NP505-LT Solder Paste
Jan 10, 2019 | NP505-LT is a no-clean, lead-free, zero-halogen solder paste for assemblies that have temperature sensitive substrates and components.
Kester to Exhibit and Present at SMTA International 2018
Oct 09, 2018 | Kester will be exhibiting (booth #117) at SMTAI 2018, which will take place October 16-17 at the Donald Stephens Convention Center in Rosemont, IL.
Kester Launches WP616 Solder Paste
Sep 07, 2018 | Kester is proud to announce the launch of WP616, a zero-halogen, lead-free, water-soluble solder paste formula for both nitrogen and air reflow applications. WP616 provides a combination of consistent print performance at wide humidity levels, excellent solderability and ease of cleaning, while maintaining a zero-halogen flux formulation. WP616 is a stable water-soluble formula, providing consistent stencil life, tack time and print definition.
Kester Launches WP616 Solder Paste
Sep 07, 2018 | Kester is proud to announce the launch of WP616, a zero-halogen, lead-free, water-soluble solder paste formula for both nitrogen and air reflow applications. WP616 provides a combination of consistent print performance at wide humidity levels, excellent solderability and ease of cleaning, while maintaining a zero-halogen flux formulation. WP616 is a stable water-soluble formula, providing consistent stencil life, tack time and print definition.
Kester Launches NP560 Solder Paste
Mar 12, 2018 | Kester is proud to announce the launch of NP560, a no-clean, lead-free, halogen-free solder paste. It consistently delivers paste transfer efficiencies of 0.50 to 0.55 AR and is fully capable of printing and reflowing 01005 components, even in air, with minimal graping behavior. In addition to its stable, consistent product performance, NP560 has redefined the voiding standard for PCB assembly and has the potential for low voiding performance.
Kester to Exhibit and Present at IPC APEX EXPO 2018
Jan 30, 2018 | Kester will be exhibiting (booth #3118) at IPC APEX Expo 2018, which will take place February 27-March 1 at the San Diego Convention Center. Kester’s booth will offer attendees the opportunity to meet with the R&D and sales teams, and learn more about Kester’s new products.
Kester to Exhibit & Present at SMTA China East/NEPCON China
Apr 10, 2017 | Kester will be exhibiting (booth #1H43) at SMTA China East/NEPCON, which will take place April 25-27 at the Shanghai World Expo Exhibition & Convention Center. Kester’s booth will offer attendees the opportunity to meet with the sales team and learn more about Kester’s new products.
Kester to Exhibit at SMT Hybrid Packaging 2017
Apr 04, 2017 | Kester will be exhibiting (booth # 4-533), at SMT Hybrid Packaging 2017, which will take place May 16-18 at the Exhibition Centre in Nuremberg, Germany.
Mar 31, 2017 | Kester’s Dr. Yanrong Shi will present “Insights of solder flux fundamentals in solar module assembly” on Thursday, April 20 at 3:00pm at SNEC 11th (2017) International Photovoltaic Power Generation Conference & Exhibition. SNEC will take place April 18-20, 2017 in Shanghai.