1.  Feature-Based Modeling—Pro/ENGINEER part modeling begins with creating individual geometric features one after another. These features become interrelated to other features as you reference them during the design process.

2.  Parametric Design—The interrelation-ships between features allow the model to become parametric. So, if you alter one feature and that change directly affects other related (dependent) features, then Pro/ENGINEER dynamically changes those related features. This parametric ability maintains the integrity of the part and preserves your design intent.

3.  Associativity—Pro/ENGINEER maintains design intent outside of Part mode through associativity. As you continue to design the model, you can add parts, assemblies, drawings, and other associated objects, such as piping, sheet metal, or electrical wiring. All of these functions are fully associative within Pro/ENGINEER. So, if you change your design at any level, your project will dynamically reflect the changes at all levels, preserving design intent.

4.  Design Intent— Design intent defines the purpose and function of the finished product based on product specifications or requirements. Capturing design intent builds value and longevity into your products. This key concept is at the core of the Pro/ENGINEER feature-based modeling process.

5.  SOLID MODELLING  SURFACING  ASSEMBLY  DETAILING(DRAFTING)  MOLD/CAST DESIGN  NC MANUFACTURING  SHEETMETAL

6.  TO CONVERT 2D TO 3D MODELS  TO CARRYOUT PRODUCT DESIGN THROUGH REVERSE ENGINEERING  TO MAKE COMPLICATED ASSEMBLIES  TO MAKE DRAWINGS FROM MODELS DESIGNED  TO DESIGN MOLD/CAST.  TO GENERATE NC TOOLPATH FOR MANUFACTURING TOOLS/MOLDS ON CNC MACHINES.

7. PRODUCT DEVELOPMENT TIME REDUCTION AS ALL ACTIVITIES RIGHT FROM CONCEPT TO TOOL MANUFACTURING ARE PERFORMED BY PRO/E EASY TO MAKE CHANGES / MODIFICATIONS IN PRODUCT DEVELOPED THROUGH PRO/E. AS CHANGES CAN BE MADE AT ANY STAGE & CAN BE PROPOGATED TO ALL RELATED FILESCREATED. MANY PRODUCT WITH VARIATIONS CAN BE DESIGNED WITHIN SHORT TIME WITHOUT CARRYING OUT FULL CYCLE OF PRODUCT DEVELOPMENT

8. FEATURE BASED Model Solid Parts by Combining intuitive Engineering features CAPTURING DESIGN INTENT Incorporate engineering knowledge into solid models using implied and explicit relationship, Patterns and family tables. CREATING ASSEMBLIES Combining parts into assemblies Build parts by combing features relative to each other and in logical order-pattern features within a parts, create family tables of related parts. Create new parts based on assembly dimensions and clearances. Assemble parts relative to each other and in logical orders- pattern features within an assembly, create family tables of related assemblies. DRAWINGS ANALYSIS MACHINING APPLICATIONS

9. CHECK VALVE ASSEMBLY

10. PLUMMER BLOCK ASSEMBLY

11. PISTON-CONNECTING ROD ASSEMBLY

12. JUNCTION VALVE ASSEMBLY

13. MUG MOLD-EXPLODED VIEW

14. COVER MOLD

15. COVER MOLD- EXPLODED VIEW

16. 555-TIMER CHIP

17. EXAMPLES ACCEL COVER

18. CGR EXAMPLES

19. CYLINDER BLOCK

20. FAINING

21. FAINING DRAWING

22. MOTOR

23. GEAR ASSEMBLY

24. WHEEL

25. WHEEL DRAWING

26. SOME OF OUR SATISFIED CUSTOMERS:-  Hindustan Zinc Limited (Udaipur)  National Engineering Industries (NBC) Jaipur.  P.H.E.D. (Bisalpur project)  Irrigation Department Jaipur.  MICO Industries jaipur.  Jaipur Development Authority Jaipur.  Department Of Telecommunication Jaipur.  Godrej India limited.  S.K.F. Bearings.  Small Industries Service Institute. (SISI)  Ultratech Metals.  Bharat Potteries  Genus Overseas  North Western Railway  GSI  R.K.Marbels