Training in Shrink Fit technology and spindle clamping force control at SIM Gdynia
At SIM Gdynia, we are constantly training, testing, and implementing solutions that have a real impact on the quality of CNC machining. In May 2025, our headquarters hosted a specialized technical training course organized by experts from Hahn+Kolb and Diebold, leaders in the field of tools and clamping systems. The meeting focused on shrink fit technology and spindle clamping force control systems – key solutions for precision, repeatability, and process safety. A practical approach to innovation The training was attended by our technologists, setters, and foremen – practitioners who are responsible for the reliability of production at SIM Gdynia on a daily basis. The meeting was practical in nature. Specific cases were discussed, the application of Shrink Fit technology was tested on real components, and the impact of spindle clamping force on the stability and durability of machining was analyzed. Shrink Fit is a tool clamping technology that utilizes the phenomenon of thermal expansion – after cooling, the holder clamps the tool tightly, ensuring extreme rigidity, minimal runout, and high process repeatability. The spindle clamping force measurement system, on the other hand, allows the clamping parameters in the CNC machine to be controlled, which has a direct impact on the machining quality and service life of both the tools and the spindle itself. Building an advantage with knowledge We would like to thank the representatives of Hahn+Kolb and Diebold for the inspiring training and for sharing their expert knowledge. Initiatives like this are extremely important to us – they help develop the competence of our team and directly translate into production efficiency. At SIM Gdynia, we build our competitive advantage not with words, but with action. This is another step towards even higher precision and reliability of our CNC services.
What is CNC machining?
CNC machining (Computer Numerical Control) is a technological process involving the shaping of materials using numerically controlled machine tools, i.e. machines that perform tasks according to pre-programmed computer instructions. A technical design – usually prepared in a CAD (Computer-Aided Design) program, i.e. a tool for computer-aided engineering – is converted into code that directs the machine’s work. CNC milling machines, lathes, and grinders perform precise movements, removing material from the workpiece and creating a part with specific shapes and dimensions. This can be compared to the opposite of 3D printing – instead of adding material, CNC machining involves its controlled removal until the desired shape is achieved. Types of machining There are several main types of machining, each of which is used to achieve different effects: The variety of machining methods offers a wide range of possibilities for shaping components – from rough removal of material to precise surface finishing. The use of machining in industry This technology is used both in mass production and in the manufacture of unique, specialized components. Below are the key industries in which CNC machining is particularly important: Machining plays a key role wherever precision, repeatability, and the ability to work with a wide variety of materials are important. What materials can be machined with CNC? Thanks to its versatility, CNC machining can be used for both easily machinable materials and those requiring specialised tools. The most commonly machined materials include: The choice of material always depends on the intended use of the component, expectations regarding durability, geometry, production costs and possible finishing operations. Advantages of CNC machining The advantage of CNC machining is full control over the process, which makes it possible to achieve repeatable results even with very complex designs. Other key benefits include: CNC machining is ideal wherever quality, repeatability, and efficient production management are important. Summary – what is CNC machining? CNC machining is a modern manufacturing method that combines precise computer control with a wide range of technological possibilities. It allows for the efficient and economical production of parts of varying complexity – from metals, plastics, composites, and special materials. This technology is used in almost every branch of modern industry and allows for both serial and single-piece production. Its main advantages are repeatability, flexibility, reduced lead times, and reduced material waste. All this makes CNC an indispensable tool in the design and production of modern components.
SIM Gdynia supports local sport – partnership with Chwaszczyno Sports Club
At SIM Gdynia, we believe that the true strength of industry lies not only in technology, but also in the people and communities we support. That is why we are proud to announce that on May 13, 2025, we signed an official partnership agreement with Chwaszczyno Sports Club. This is the beginning of a collaboration that we hope will bring long-term benefits to young athletes and the local community. A shared vision for development The agreement was signed by Anna Szczypek, President of SIM Gdynia, and Janusz Płocki, President of Chwaszczyno Sports Club. The meeting not only confirmed the formal commitment, but also emphasized our shared values of development, passion, and commitment to local initiatives. SIM Gdynia has become the club’s main sponsor. We believe that thanks to this cooperation, young players will gain even better conditions for development, training, and achieving their sporting goals, both small and large. Young people are the future, not only in sports The partnership with KS Chwaszczyno is more than just sponsorship. It is a real investment in young people who, thanks to technical and organizational support, can spread their wings. As a manufacturing company, we understand the value of systematic work, discipline, and teamwork – and it is sport that teaches these attitudes from an early age. Our support is aimed at improving the training infrastructure, developing the training program, and enabling participation in more competitions. We want every child training at KS Chwaszczyno to have the opportunity to pursue their sporting dreams. We look to the future with hope We hope that this partnership will be the beginning of many joint projects – tournaments, campaigns promoting physical activity, and family events. Our support is not just a logo on jerseys – it is a real presence in the lives of young athletes and their families. We can’t wait for the first successes of the KS Chwaszczyno players, whom we already strongly support. We are with you – on and off the pitch!
Family Picnic on Children’s Day–join us for a celebration on June 15!
At SIM Gdynia, we believe that the strength of a company lies not only in technology and precision, but also in relationships – both professional and family. That is why we are delighted to invite SIM Gdynia employees and their loved ones to a Family Picnic on Children’s Day, which will take place on June 15, 2025 at the Toyota Arena Stadium in Chwaszczyno. The event is scheduled to start at 1:00 p.m. Why is it worth participating? The Family Picnic is a great opportunity to spend time together in a relaxed atmosphere – away from everyday responsibilities, surrounded by nature, with plenty of attractions for children and adults. The event combines physical activity, educational elements, and relaxation in the fresh air. All in a friendly, safe, and well-organized space. The program includes, among other things: Prize lottery A raffle will be held among the participants of the event, with prizes including: SIM Gdynia zone – for registered employees only For SIM Gdynia employees who register to participate in the event, we have prepared a separate tent area with free refreshments. Registration is internal. Only registered participants will be able to use this zone during the picnic. See you on June 15 in Chwaszczyno! We encourage you to participate in the event with your families – a day full of joy, integration, and shared moments that will remain in your memory for a long time awaits you.
SIM Gdynia received the OTIF95 award from the KION Group
In February, we announced that SIM Gdynia had won the OTIF95 Supplier Performance Award presented by the KION Group. Today, we are pleased to announce that we officially received this award on 03.04.2025. The award confirms our reliability in delivery and the efficiency of our operational processes. You can read more about the OTIF95 program and our cooperation with the KION Group in our previous article: SIM Gdynia wins OTIF95 Supplier Performance Award from the KION Group We would like to thank the KION Group for their trust and recognition – it is a strong motivation for us to continue improving.
What is the difference between turning and milling? – Key differences in CNC machining
In industries where every micrometer and every second of production counts, CNC machining (Computerized Numerical Control) has become the foundation of modern manufacturing. The two most important cutting methods are turning and CNC milling. Although both techniques are used to precisely shape metal and plastic parts, they differ in their range of applications, tool movement, and geometric capabilities. In this article, we explain how CNC turning differs from milling, when to use each method, and how to choose the right technology. What is CNC turning? In CNC turning, the workpiece is clamped in a chuck and rotates around its own axis, while the cutting tool moves along the X and Z axes. This principle allows for the efficient removal of material from cylindrical and conical surfaces. This technology is used, among other things, for the production of shafts, pins, bushings, rings, and threads. It is ideal for mass production, where dimensional repeatability and process stability are key. What is CNC metal milling? CNC milling is a process in which a tool (milling cutter) rotates while the workpiece remains stationary or moves along the X, Y, and Z axes – and in the case of 4- and 5-axis machines – also around the rotary axes. Milling allows the machining of flat surfaces, holes, pockets, bevels, and 3D structures. It is indispensable in projects where parts require multiple operations in different planes, from injection molds and machine bodies to medical and aerospace components. CNC milling and turning – a comparison of technologies To understand CNC milling and turning, it is worth comparing these processes in terms of key aspects: Movement of elements Workpiece geometry Machining range Milling is a highly versatile process that allows for the creation of very complex shapes. CNC turning, on the other hand, allows for the efficient creation of symmetrical elements while maintaining perfect axial alignment. How to choose the right CNC machining method? The choice between CNC milling and turning depends primarily on the geometry of the detail, the type of material and the production requirements. Geometry Turning is chosen for axially symmetrical components – shafts, sleeves, pins. Milling is used for parts with complex surfaces, spatial openings, and irregular shapes. Material Most metals can be machined using both methods. With plastics, milling provides greater dimensional stability and better process control. Accuracy Turning guarantees high coaxiality precision. Milling allows positioning relative to multiple planes. Production scale In the mass production of simple parts, turning is more effective. Milling is better suited to small-batch production of complex components. At SIM Gdynia, we combine both technologies to tailor the machining process to the customer’s requirements. We analyze each project individually in terms of functional and economic requirements. Summary CNC turning and milling are two different approaches to machining that complement each other in modern production. The choice of technology should be based on a design, tolerance and material analysis. Turning dominates in simple, axial parts where efficiency and repeatability are important. Milling allows for complete freedom in the design of spatial details and precise multi-axis machining. Understanding these differences is the foundation of effective technological cooperation – from design to the finished product.
Iscar technical training at SIM Gdynia – new Quicklogic tool line supports the development of precision CNC machining
At SIM Gdynia, we prioritize the development of our team’s technical skills and the continuous improvement of our production processes. As part of these activities, in April we had the opportunity to participate in training conducted by Iscar, a global leader in cutting tools, at their mobile training center, which was hosted at our plant. Presentation of Quicklogic tools – innovations in machining During the meeting, we were presented with a new line of Quicklogic tools, designed to increase efficiency and precision in turning, boring, milling, and drilling. These tools are a response to the modern challenges in the production of mechanical components, carried out in short series and to individual customer orders. Iscar engineers presented both the design aspects of the tools and specific examples of their practical application. Particular emphasis was placed on the possibility of shortening the machining cycle time, improving tool life and increasing process repeatability – key parameters in professional CNC machining to order. Benefits for SIM Gdynia and our customers Participation in the training allowed us to become more familiar with modern technological solutions that we plan to implement in our machine park in the near future. Thanks to them, we will be able to even more effectively carry out orders in the field of turning, milling and comprehensive CNC machining, offering our customers even higher quality of workmanship while shortening delivery times. At SIM Gdynia, we constantly invest in development, both through the modernization of our technical infrastructure and specialized training for our team. Such meetings are an important part of building our technological advantage and maintaining the highest production standards. Thanks to the Iscar team We would like to thank Iscar for organizing a professional training course and for the opportunity to learn about the latest solutions in the field of machining tools. The meeting was a valuable source of knowledge and inspiration that we will use to further improve our technological processes.
What materials are CNC machined? An overview of the most commonly used raw materials in the production of mechanical components at SIM Gdynia
In the precision production of mechanical components, the selection of the right material is a key stage of the process. CNC machining – whether turning, milling or 5-axis machining – requires materials that not only meet strength requirements, but also work well with tools and cutting technology. At SIM Gdynia, we have specialized in CNC services for over 45 years and know how important the quality and type of raw material is. In this article, we present an overview of the materials we use most often in our production. Materials most commonly used in CNC machining Three main material groups dominate our machinery: carbon steel, stainless steel and aluminum. These raw materials form the basis for the production of precision components for industries such as the automotive, energy and mechanical engineering sectors. Carbon steel – versatile and robust Structural steel (e.g. S235JR, S355J2) and quenched and tempered steels such as C45, 42CrMo4, 16MnCr5 are the basic materials from which we produce a wide range of parts. Their availability, the possibility of precise CNC machining and excellent mechanical properties make them a reliable choice for many projects. Stainless steel – corrosion resistance Stainless steel is a material that is used in environments requiring increased chemical resistance. At SIM Gdynia, we often machine austenitic and ferritic steels, which require the appropriate selection of cutting parameters due to their hardness and tendency to harden during machining. Aluminum – lightness and versatility Thanks to its low weight and good conductive properties, aluminum is often used in industries such as aviation, automotive and electronics. In the CNC milling process, it allows for very high accuracy and short cycle times. Less typical, but equally important materials Although the vast majority of parts produced in our hall are made of metals, there is no shortage of projects using plastics and non-ferrous metals. Plastics At SIM Gdynia, we process engineering plastics such as POM, PA and PTFE. These materials are characterized by a low coefficient of friction, good chemical resistance and ease of processing, although they require precise tool alignment and thermal deformation control. Non-ferrous metals: copper, brass, bronze These materials are used less frequently but are still important, especially for the production of electrically conductive or wear-resistant components. They require special tool geometries because they are relatively soft and can stick to the cutting edge. How do the physical properties of materials affect CNC machining? Each material reacts differently to the cutting process. Hardness affects tool wear, ductility determines the type of chip, and thermal conductivity affects dimensional stability during machining. Machinability of materials – a key technological parameter Machinability is a collective term for how easily a material can be processed. Grades such as 11SMn30 (free-cutting steel) have very good machinability and are ideal for mass-produced parts. Stainless steel or copper, on the other hand, require sharper tools, lower feed rates and more efficient cooling. Quality control and material conformity Every material used in our production undergoes a quality control process. The certification of the material and the possibility of verifying its chemical composition are crucial. Thanks to the SPECTROMAXx spectrometer, we are able to quickly and precisely confirm the material’s conformity with the specification – before it even reaches the CNC machine. We work with renowned suppliers who offer a wide range of steel bars (drawn and rolled) in grades such as 11SMn30, C35, ETG88 and 20MnCr5. These grades provide different mechanical properties, such as hardness, machinability or fatigue strength, depending on the final application of the workpiece. Summary Choosing the right material for CNC machining is not just a question of availability – it is a decision that affects the entire production cycle, the service life of the tools, the quality of the finished component and its compliance with technical requirements. At SIM Gdynia, we attach great importance to the quality of raw materials, precise control and matching of machining technology to a specific material.If you are looking for a partner who not only produces custom-made mechanical components but also advises you on the best raw material, please contact us. Our services CNC guarantee quality, experience and technological know-how.
Zoller Smile 400 – micrometric precision at theheart of CNC machining
In modern industrial manufacturing, precision is no longer a competitive advantage –it is an absolute standard. In the area of CNC machining, where every hundredth of amillimeter counts, setting tools with high accuracy directly affects part quality,machine efficiency and reduced downtime.That’s where the Zoller Smile 400 comes in – it’s a compact, yet fully professionalsetting and measuring device that ideally meets the needs of manufacturing plantsworking in cutting technology. What is the Zoller Smile 400? The Zoller Smile 400 is an instrument used for setting and measuring tools used inmachining, both in the context of metal milling and other operations. Despite itscompact size, the device offers extensive functionality. Its standard equipment includes: ● Tool measurement in transmitted and reflected light,● The ability to print tool data labels,● Touchscreen electronic panel with intuitive interface,● a function for determining the maximum profile of multi-tools. Measuring ranges of the device: ● Z = 420 / 600 / 800 mm● D = 420 / 620 mm The entire device has been designed and manufactured at ZOLLER’s headquarters,using first-class components. The robust industrial design allows the device to beused both in the tool room and directly at the CNC machine. Using the Zoller Smile 400 in the CNC machining process In a production environment like SIM Gdynia’s, where lathe centers and 5-axis millingmachines are in operation, any error in tool alignment can result in loss of material,the need for corrections or, in extreme cases, damage to the workpiece. With theSmile 400, operators can quickly and accurately set tools before they reach themachine spindle. Advantages of integrating the device into the process:● Reduced preparation time – tools are ready to go before they reach themachine.● Micrometric setting precision – especially important in the production of partswith tight tolerances.● Minimization of errors and repeatability of results between shifts. This is crucial, especially in large batch production, where quality and cyclicality arenon-negotiable. The Smile 400 supports CNC machining of metals at the highestlevel – from milling tool steel to cutting aluminum or plastic parts. Zoller Smile 400 as part of a precision CNC machiningstrategy By implementing a measuring and setting device such as the Zoller Smile 400, amanufacturing plant is taking an important step toward standardizing quality andincreasing productivity. It’s not just an “extra piece of equipment” – it’s a real tool thatinfluences production strategy. Long-term advantages:● Increased operational efficiency – less downtime, better production planning.● Higher output quality of parts – fewer rejects, fewer revisions.● Workplace safety – reduced risk of tool or part damage.● Easier control of multi-tools – important, for example, for precision metalmilling. Summary Zoller Smile 400 is a tool that combines compact size with industrial precision. In therealities of modern CNC machining, where every time saving and every micrometermatters, it’s an investment that pays off quickly – both in quality and in workflow. At SIM Gdynia, we understand perfectly how important it is to control every step ofthe process. That’s why we continually invest in solutions that support our operatorsand engineers in their daily work – including equipment like the Zoller Smile 400. Want to learn more about how we optimize measurement processes at SIM Gdynia?Contact us and let’s talk about how we can support your production.
Welding service standards in the production of mechanical components – Know-How from SIM Gdynia
High-quality welding connections are a key element in the production of mechanical components used in a variety of industries – from machinery and energy, to defense, to automotive, construction and many others. The durability and strength of finished components depend not only on the technologies used, but also on the compliance of the welding process with strict standards. At SIM Gdynia, we use proven procedures that produce repeatable and durable joints that meet the highest industry requirements – regardless of the sector in which they are used. Standards governing welding processes In order for welding processes to comply with technical requirements and meet specific strength criteria, it is necessary to apply standards governing metal joining technology, welder qualifications and quality control methods. Of particular importance in the manufacture of mechanical components are: At SIM Gdynia, we attach great importance to adhering to the above standards, which allows us to provide mechanical components with high durability and compliance with customer requirements. Our processes are supervised by certified specialists and are subject to systematic verification to ensure that each weld meets stringent quality standards. Welding technologies used in the production of mechanical components TIG welding (141) – precision and heat control TIG (141) welding produces high-quality and precise welds. By using a tungsten electrode and shielding gas, the process minimizes the effect of heat on the structure of the material. This technology makes it possible to obtain clean and aesthetically pleasing welds, which is crucial for parts with increased corrosion requirements. MIG/MAG welding (135/136) – durability and efficiency MIG/MAG (135/136) welding is used in joining low-alloy steel, where the strength of the joint and resistance to dynamic loads are crucial. This process makes it possible to achieve durable welds while maintaining high production efficiency. Materials used in the welding process In the production of mechanical components, it is crucial to use the right materials, which must meet the requirements for mechanical strength, resistance to external factors and compliance with technical documentation. At SIM Gdynia, we weld both stainless steel, which requires precise control of thermal parameters to avoid overheating and structural changes, and low-alloy steel, used in machine structures and components subjected to intensive mechanical loads. Summary Professional welding services in the production of mechanical components must meet the stringent requirements of EN ISO 15614-1, ISO 9606-1 and EN ISO 9712 to ensure the durability and precision of joints. At SIM Gdynia, we ensure that each process is carried out to the highest standards, allowing us to deliver components that meet the expectations of customers in a wide range of industries. Thanks to the use of certified procedures, we are able to carry out both single projects and larger series. Constant quality control and supervision by an experienced team guarantee that each weld is made with the highest precision and in accordance with the technical documentation.