What is Z83 form? Z83 application from is an application form to apply for government employment.To assist a government department in selecting a person for an advertised post. This Z83 form may be used to identify candidates to be interviewed. Since all applicants cannot be interviewed, you need to fill in this Z83 form completely, accurately and legibly. This will help to process your application fairly. Tips on how to fill this Z83 Form Step 1: Obtain a Z83 form. This form is available at any Government office and most Government departments websites.

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Step 3: Fill in the Z83 form completely. You need to complete the form accurately and legibly by filling in Section A to Section G. Step 4: Complete the Declaration Section. Read through and sign the form; your application will not be considered if you have not dated and signed the form. Step 5: After completing the form, remember to attach your current CV (five pages maximum) together with certified copies of your ID, academic qualifications and proof of other requirements as indicated in the advertisement. Step 6:Post or hand deliver your completed Z83 form and all the required documents to the address listed in the advertisement Additional Information. • • All information will be treated confidentially and will be assessed to find the suitable person. Dumpper v704 jumpstart 3.

• Most South African Government Departments encourages all disabled candidates to apply. • If you are not a South African citizen, then you need to add your passport number. All personal details must correspond with the details in your ID or passport. • Any job applications sent by fax or e-mail will not be accepted. All job applications, including Z83 forms, CVs and certified documents, must be posted or delivered by hand to the address listed in each advertisement. • Not all applicants will be contacted.

You will only be contacted for an interview if you are shortlisted after the selection process. • If you have not been contacted within three months of the closing date, please consider your application as unsuccessful.

Z88Arion Z88Arion® identifies the graphical user interface for a structural optimization program based on the finite-element-analysis software Z88, whose solver kernels are developed by Prof. It is are freeware software project and can be downloaded.

At the moment it is possible to use three different algorithms for. Z88Arion® has a comfortable graphical user interface plus powerful solver kernels, which help minimizing the initial training effort as well as the required calculation time and ensure ease of use. Z88Arion® basically consists of three parts: preprocessor, solver and postprocessor. In the following, you can learn more about these divisions and look at some screenshots of the software. Import Geometry: • STEP files (*.STP) • STL files in ASCII- and binary-format (*.STL) Import FE structures: • NASTRAN (*.NAS) • ABAQUS (*.INP) • COSMOS (*.COS) • Z88 projects (z88i*.txt) FE model generation: • Two freeware meshers for tetrahedrons: • (WIAS Berlin) • (TU Wien) • One adaptive tetrahedral mesher for existing tetrahedron-structures (linear) • One mapped-mesher for superelement-structures (Hexahedrons) • A picking tool which helps to select nodes and elements easily in order to link surfaces to boundary conditions, material properties, etc.

• An editable and expandable material database consisting of 50 predefined materials • Definition of boundary condition via the graphical user interface (e.g. By picking a node) • Different kinds of boundary conditions: • Forces in all directions • Displacements in all directions • Line and surface loads (also projected) • Pressure, both in positive and negative direction to the element surface • Fix-Sets. The solver calculates iteratively – depending on the chosen method – the optimal stiffness or the optimal combination of stiffness and stability in compliance with the given restrictions. You can choose between the following optimization algorithms: • OC method: optimization for minimum compliance respectively maximum stiffness • SKO method: optimization for maximum stability • TOSS method ( Topology Optimization for Stiffness and Stress): optimization for minimum compliance in combination with maximum stability As results you get the optimal material distribution in the design space, the compliance and – for the TOSS method – the equivalent stress per element. Further info can be found in the of Z88Arion®.