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Optimik 3 17: What's New and What's Next in Cutting Plan Software


Optimik 3 17: A Powerful Software for Optimizing Cutting Plans


If you are looking for a software program that can help you optimize your cutting plans for various materials such as wood, glass, metal, or plastic, you might want to check out Optimik 3 17. This is a software program developed by RK Software that has been updated regularly since its first release in 1999. It is designed to help users create optimal cutting plans for different types of materials and machines.




Crack Optimik 3 17

In this article, we will review what Optimik 3 17 is and what are its main features. We will also explain how it works and how to use it to create cutting plans for different materials and machines. We will then discuss the benefits of using Optimik 3 17 for optimizing cutting plans. We will also cover the development of Optimik 3 17 and what are the latest updates and improvements. Finally, we will provide some frequently asked questions and answers about Optimik 3 17. By the end of this article, you will have a better understanding of what Optimik 3 17 is and how it can help you optimize your cutting plans for various materials such as wood, glass, metal, or plastic, you might want to check out Optimik 3 17. This is a software program developed by RK Software that has been updated regularly since its first release in 1999. It is designed to help users create optimal cutting plans for different types of materials and machines.


How Optimik 3 17 Works




To use Optimik 3 17, you need to follow three basic steps: input data, calculation options, and output data. Let's take a closer look at each step and see how Optimik 3 17 works.


Input Data




The first step is to enter the data that you need for your cutting plan. This includes the material properties, such as type, thickness, dimensions, quantity, price, etc. You can choose from a predefined list of materials or create your own custom materials. You can also enter the edge banding information if you need it.


The next step is to enter the parts that you want to cut from the material. You can specify the name, quantity, dimensions, orientation, color, etc. of each part. You can also import parts from external files or databases, or use the product catalog to create parts from predefined templates.


The last step is to enter the machine that you will use for cutting. You can select from a list of supported machines or create your own custom machine. You can define the cutting parameters, such as blade thickness, kerf width, cleaning cuts, etc. You can also specify the CNC file format if you want to export the cutting plan to a CNC machine.


Calculation Options




The second step is to choose the calculation options that you want to use for your cutting plan. This includes the optimization method, the optimization criteria, the optimization level, and the optimization mode.


The optimization method determines how Optimik 3 17 will arrange the parts on the material. You can choose from four methods: rectangular nesting, free nesting, strip nesting, and guillotine nesting. Each method has its own advantages and disadvantages depending on the shape and size of the parts and the material.


The optimization criteria determines what Optimik 3 17 will try to achieve with the cutting plan. You can choose from three criteria: minimum waste, minimum number of formats, or minimum number of cuts. Each criterion has its own impact on the material usage and the cutting time.


The optimization level determines how thoroughly Optimik 3 17 will search for the best cutting plan. You can choose from three levels: fast, normal, or best. Each level has its own trade-off between speed and quality.


The optimization mode determines how Optimik 3 17 will handle the offcuts and remnants from previous cutting plans. You can choose from three modes: automatic, manual, or off. Each mode has its own effect on the material savings and the inventory management.


Output Data




The third step is to view and export the output data that Optimik 3 17 generates for your cutting plan. This includes the cutting plans, the reports, the labels, and the CNC files.


The cutting plans show how Optimik 3 17 has arranged the parts on the material. You can see the dimensions, positions, orientations, c