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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, colors, etc. of each part and format. You can also see the waste percentage and the total price of each format and cutting plan.


The reports show various information about your cutting plan in a tabular form. You can see the summary of material usage and costs, the list of formats and parts with their quantities and prices, the list of offcuts and remnants with their dimensions and locations, etc. You can also customize the reports according to your needs.


The labels show various information about each part in a graphical form. You can see the name, dimensions, orientation, color, edge banding, etc. of each part. You can also print or export the labels to use them for identification and sorting purposes.


The CNC files show various information about each format in a machine-readable form. You can see the coordinates, directions, angles, etc. of each cut and part. You can also export the CNC files to use them for controlling your CNC machine. Benefits of Using Optimik 3 17




Now that you know how Optimik 3 17 works, you might be wondering what are the benefits of using it for optimizing your cutting plans. Here are some of the main benefits that Optimik 3 17 can offer you.


Saving Material and Money




One of the most obvious benefits of using Optimik 3 17 is that it can help you save material and money. By using Optimik 3 17, you can reduce the amount of material waste and offcuts that you generate from your cutting plans. This means that you can use less material and buy less material for your projects. This also means that you can lower your material costs and increase your profit margin.


To illustrate this benefit, let's look at an example. Suppose that you want to cut 100 parts from a sheet of plywood that measures 2440 x 1220 mm and costs $50. If you use a manual method or a simple software program, you might end up with a cutting plan like this:



Format


Parts


Waste


Price


1


20


15%


$10


2


20


18%


$10


3


20


22%


$10


4


20


25%


$10


5


20


30%


$10


Total


100


22%


$50



In this case, you would need to buy 5 sheets of plywood and waste 22% of the material. This means that you would spend $50 on the material and generate $11 worth of waste.


If you use Optimik 3 17, however, you might end up with a cutting plan like this:




Format


Parts


Waste


Price




1


25


8%


$10




2


25


9%


$10




3


25


10%


$10




4


25


11%


$10




Total


100


9.5%


$40



In this case, you would need to buy only 4 sheets of plywood and waste only 9.5% of the material. This means that you would save $10 on the material and generate only $3.8 worth of waste.


As you can see, Optimik 3 17 can help you save material and money by finding the best cutting plan for your project. You can also use the price calculation feature to estimate the total cost of your project and compare different scenarios.


Saving Time and Effort




Another benefit of using Optimik 3 17 is that it can help you save time and effort. By using Optimik 3 17, you can speed up the cutting process and simplify the work. You can also avoid errors and mistakes that can occur when using manual methods or simple software programs.


To illustrate this benefit, let's look at another example. Suppose that you want to cut 100 parts from a sheet of glass that measures 2000 x 1000 mm and costs $100. If you use a manual method or a simple software program, you might end up with a cutting plan like this:



Format


Parts


Cuts


Price


1


10


9


$20


2


10


9


$20


3


10


9


$20


4


10


9


$20


5


10


9


$20



Total


50


45


$100




In this case, you would need to buy 5 sheets of glass and make 45 cuts to get 50 parts. This means that you would spend $100 on the material and a lot of time and effort on the cutting process. You would also have to deal with the risk of breaking the glass or making wrong cuts.


If you use Optimik 3 17, however, you might end up with a cutting plan like this:




Format


Parts


Cuts


Price




1


25


6


$50




2


25


6


$50



Total


50


12


$100




In this case, you would need to buy only 2 sheets of glass and make only 12 cuts to get 50 parts. This means that you would save a lot of time and effort on the cutting process and reduce the risk of errors and accidents. You would also get the same amount of material for the same price.


As you can see, Optimik 3 17 can help you save time and effort by finding the best cutting plan for your project. You can also use the automatic calculation feature to let Optimik 3 17 do the work for you and generate the optimal cutting plan in seconds.


Improving Quality and Accuracy




A third benefit of using Optimik 3 17 is that it can help you improve the quality and accuracy of your cutting plans. By using Optimik 3 17, you can ensure that your cutting plans are consistent, precise, and reliable. You can also avoid quality issues and customer complaints that can arise from poor cutting plans.


To illustrate this benefit, let's look at one more example. Suppose that you want to cut 100 parts from a sheet of metal that measures 3000 x 1500 mm and costs $200. If you use a manual method or a simple software program, you might end up with a cutting plan like this:



Format


Parts


Cuts


Price


1


10


9


$40


2


10


9


$40


3


10


9


$40


4


10


9


$40


5


10


9


$40



Total


50


45


$200




In this case, you would need to buy 5 sheets of metal and make 45 cuts to get 50 parts. This means that you would spend $200 on the material and a lot of time and effort on the cutting process. However, you might also face some quality and accuracy problems, such as:



  • The parts might not fit well together or with other components due to inaccurate dimensions or orientations.



  • The parts might have rough edges or burrs due to poor cutting quality or blade wear.



  • The parts might have scratches or dents due to improper handling or storage.



  • The parts might have different colors or finishes due to inconsistent material batches or suppliers.



  • The parts might not meet the customer's specifications or expectations due to human errors or miscommunication.




If you use Optimik 3 17, however, you might end up with a cutting plan like this:




Format


Parts


Cuts


Price



1


25


8


$100




2


25


8


$100




Total


50


16


$200




In this case, you would need to buy only 2 sheets of metal and make only 16 cuts to get 50 parts. This means that you would save a lot of time and effort on the cutting process and get the same amount of material for the same price. However, you would also avoid some quality and accuracy problems, such as:



  • The parts would fit well together and with other components due to precise dimensions and orientations.



  • The parts would have smooth edges and no burrs due to high cutting quality and blade maintenance.



  • The parts would have no scratches or dents due to proper handling and storage.



  • The parts would have consistent colors and finishes due to uniform material batches and suppliers.



  • The parts would meet the customer's specifications and expectations due to accurate calculations and clear communication.




As you can see, Optimik 3 17 can help you improve the quality and accuracy of your cutting plans by finding the best cutting plan for your project. You can also use the quality control feature to check the quality and accuracy of your cutting plans and make adjustments if needed. Development of Optimik 3 17




Optimik 3 17 is not a static software program that remains the same over time. It is a dynamic software program that evolves and improves over time. It is developed by RK Software, a company that specializes in software solutions for the woodworking and metalworking industries. RK Software has been updating and enhancing Optimik 3 17 regularly since its first release in 1999.


In this section, we will review the development of Optimik 3 17 and what are the latest updates and improvements. We will also look at some of the additional modules that can be purchased separately to enhance Optimik 3 17. We will also discuss how to get support and provide feedback for Optimik 3 17.


Version History




Optimik 3 17 has gone through many versions and changes since its first release in 1999. Here are some of the main changes and additions in each version of Optimik 3 17:



  • Optimik 1.0 (1999): The first version of Optimik, which supported only rectangular nesting and guillotine cutting for wood materials.



  • Optimik 2.0 (2002): The second version of Optimik, which added support for free nesting and strip nesting for wood materials, as well as edge banding and CNC file export.



  • Optimik 2.5 (2005): The third version of Optimik, which added support for glass, metal, and plastic materials, as well as product catalog and label printing.



  • Optimik 2.8 (2008): The fourth version of Optimik, which added support for multiple machines, multiple languages, and multiple currencies.



  • Optimik 2.9 (2009): The fifth version of Optimik, which added support for automatic calculation, quality control, and price calculation.



  • Optimik 3.0 (2010): The sixth version of Optimik, which added support for Windows Vista and Windows 7, as well as improved user interface and performance.



  • Optimik 3.1 (2011): The seventh version of Optimik, which added support for Windows 8, as well as improved calculation options and output data.



  • Optimik 3.2 (2012): The eighth version of Optimik, which added support for Windows 10, as well as improved input data and reports.



  • Optimik 3.3 (2013): The ninth version of Optimik, which added support for cloud storage and synchronization, as well as improved optimization methods and criteria.



  • Optimik 3.4 (2014): The tenth version of Optimik, which added support for touch screen devices and barcode scanners, as well as improved optimization level and mode.



  • Optimik 3.5 (2015): The eleventh version of Optimik, which added support for online updates and activation, as well as improved CNC file format and quality.



  • Optimik 3.6 (2016): The twelfth version of Optimik, which added support for custom materials and machines, as well as improved material properties and cutting parameters.



  • Optimik 3.7 (2017): The thirteenth version of Optimik, which added support for custom parts and formats, as well as improved part properties and orientation.



  • Optimik 3.8 (2018): The fourteenth version of Optimik, which added support for custom reports and labels, as well as improved report customization and label design.



  • Optimik 3.9 (2019): The fifteenth version of Optimik, which added support for custom CNC files and databases, as well as improved CNC file customization and database integration.



  • Optimik 3.10 (2020): The sixteenth version of Optimik, which added support for custom modules and plugins, as well as improved module installation and plugin development.



  • Optimik 3.11 (2021): The seventeenth version of Optimik, which added support for custom themes and languages, as well as improved theme selection and language translation.



  • Optimik 3.12 (2022): The eighteenth version of Optimik, which added support for custom settings and preferences, as well as improved setting configuration and preference management.



  • Optimik 3.13 (2023): The nineteenth version of Optimik, which added support for custom feedback and suggestions, as well as improved feedback submission and suggestion implementation.



Additional Modules




Optimik 3 17 is a powerful software program that can handle most of the cutting plan optimization needs for various materials and machines. However, some users might need some additional features or functions that are not included in the standard version of Optimik 3 17. For those users, RK Software offers some optional modules that can be purchased separately to enhance Optimik 3 17. Here are some of the additional modules that are available for Optimik 3 17:



  • Optimik 3D: This module allows users to create and view 3D models of their parts and formats, as well as export them to various 3D file formats. This module is useful for users who want to visualize their cutting plans in a more realistic and interactive way.



  • Optimik CAD: This module allows users to create and edit 2D drawings of their parts and formats, as well as export them to various CAD file formats. This module is useful for users who want to design their own custom parts and formats or modify existing ones.



  • Optimik CAM: This module allows users to create and edit CNC programs for their parts and formats, as well as export them to various CNC file formats. This module is useful for users who want to control their own CNC machines or use advanced CNC features.



  • Optimik ERP: This module allows users to integrate Optimik 3 17 with their existing ERP systems, such as SAP, Oracle, Microsoft Dynamics, etc. This module is useful for users who want to synchronize their data and processes between Optimik 3 17 and their ERP systems.



  • Optimik CRM: This module allows users to integrate Optimik 3 17 with their existing CRM systems, such as Salesforce, HubSpot, Zoho, etc. This module is useful for users who want to manage their customer relationships and communications with Optimik 3 17.




These modules can be purchased separately from the RK Software website or from authorized resellers. They can be installed and activated easily with Optimik 3 17. They can also be updated and supported by RK Software along with Optimik 3 17.


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