Empowering Careers: Unveiling the Educational Excellence of Skill Lync in Hyderabad, Bangalore, and Chennai

Introduction to Skill Lync

Skill Lync emerges as a pioneering force in the realm of skill-based education, with a commitment to transforming careers and fostering innovation. With prominent branches in Hyderabad, Bangalore, and Chennai, Skill Lync stands as a beacon for aspiring professionals seeking quality education in engineering and technology. Let’s embark on a comprehensive exploration, delving into the unique offerings and educational prowess of Skill Lync across these vibrant cities.

I. Skill Lync’s Educational Ecosystem

  1. Program Diversity: Skill Lync offers a diverse range of programs, covering disciplines such as mechanical, electrical, civil engineering, and more. Each program is meticulously designed to align with industry needs, providing students with practical skills and real-world applications.
  2. Cutting-Edge Curriculum: The curriculum at Skill Lync is characterized by its forward-thinking approach, integrating the latest industry trends, tools, and technologies. This ensures that graduates are well-equipped to tackle contemporary challenges in their respective fields.

II. Skill Lync Hyderabad Nurturing Talent in the Silicon Valley of India

  1. Skill Lync Hyderabad Campus Overview: The Skill Lync campus in Hyderabad is strategically located in the heart of the city, fostering an environment conducive to learning and collaboration. The campus houses state-of-the-art facilities and labs to facilitate hands-on learning experiences.
  2. Industry Collaborations in Hyderabad: Skill Lync in Hyderabad boasts strong ties with local industries, providing students with opportunities for internships, projects, and exposure to real-world scenarios. This collaboration ensures that students gain practical insights and industry-relevant skills.

III. Skill Lync Bangalore : Thriving in the Silicon Valley of India

  1. Skill Lync Bangalore  Campus Dynamics: The Skill Lync campus in Bangalore, nestled in the Silicon Valley of India, embodies the spirit of innovation. The campus infrastructure is designed to nurture creativity, critical thinking, and collaboration among students.
  2. Industry-Integrated Programs in Bangalore: Skill Lync’s presence in Bangalore is synonymous with industry integration. Collaborations with leading tech companies and startups enable students to engage in live projects, internships, and workshops, bridging the gap between academia and industry demands.

IV.Skill Lync Chennai: Fostering Engineering Excellence

  1. Skill Lync Chennai Campus Enrichment: The Skill Lync campus in Chennai exudes an atmosphere of engineering excellence. The campus facilities are tailored to support research, innovation, and a holistic learning experience for students pursuing various engineering disciplines.
  2. Research and Development Focus in Chennai: Skill Lync in Chennai emphasizes a strong focus on research and development. Students are encouraged to participate in research projects, contributing to advancements in their respective fields and gaining a deeper understanding of the subject matter.

V. Skill Lync’s Unique Teaching Methodology

  1. Project-Centric Learning: Skill Lync’s teaching methodology is project-centric, emphasizing hands-on learning experiences. Students work on real-world projects, applying theoretical knowledge to practical scenarios, enhancing their problem-solving skills.
  2. Industry Expert-Led Sessions: The curriculum is enriched by industry expert-led sessions, workshops, and webinars. This exposure allows students to gain insights into industry practices, trends, and challenges, preparing them for successful careers.

VI. Student Success Stories and Placement Assistance

  1. Alumni Achievements: Skill Lync takes pride in its alumni network, comprising success stories of graduates who have excelled in their careers. These stories serve as testimonials to the effectiveness of Skill Lync’s educational approach.
  2. Placement Support and Guidance: Skill Lync offers robust placement support, guiding students through resume building, interview preparation, and connecting them with industry partners for potential job opportunities. The placement cell plays a pivotal role in ensuring a smooth transition from education to employment.

VII. Charting Skill Lync’s Impact

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Visualize the impact of Skill Lync’s programs by charting key metrics such as student success rates, placement percentages, and industry collaborations. This chart serves as a testament to the effectiveness and reach of Skill Lync in Hyderabad, Bangalore, and Chennai.

Skill Lync Salaries in Hyderabad/Secunderabad

Designation Average Salary

Yearlyarrow-down

Inside Sales Specialist

Experience: 0 – 8 yrs · Hyderabad/Secunderabad  (153 Salaries)
₹ 5,85,887/year

(₹2.4L/yr – ₹10.5L/yr)

 

Inside Sales Executive

Experience: 0 – 8 yrs · Hyderabad/Secunderabad  (24 Salaries)
₹ 6,05,476/year

(₹3.5L/yr – ₹8.0L/yr)

 

Domain Manager

Experience: 3 – 10 yrs · Hyderabad/Secunderabad  (19 Salaries)
₹ 8,63,515/year

(₹6.5L/yr – ₹13.0L/yr)

 

Sales Engineer

Experience: 0 – 8 yrs · Hyderabad/Secunderabad  (12 Salaries)
₹ 5,84,015/year

(₹3.5L/yr – ₹7.1L/yr)

 

Presales Consultant

Experience: 0 – 3 yrs · Hyderabad/Secunderabad  (11 Salaries)
₹ 4,29,386/year

(₹3.0L/yr – ₹5.4L/yr)

 

Team Lead

Experience: 2 – 8 yrs · Hyderabad/Secunderabad  (10 Salaries)
₹ 7,45,862/year

(₹5.5L/yr – ₹8.5L/yr)

 

Business Development Associate

Experience: 0 – 5 yrs · Hyderabad/Secunderabad  (10 Salaries)
₹ 4,78,753/year

(₹4.0L/yr – ₹8.5L/yr)

 

Regional Sales Manager

Experience: 3 – 13 yrs · Hyderabad/Secunderabad  (8 Salaries)
₹ 18,44,392/year

(₹11.0L/yr – ₹21.0L/yr)

 

Quality Analyst

Experience: 3 – 6 yrs · Hyderabad/Secunderabad  (7 Salaries)
₹ 4,76,666/year

(₹3.6L/yr – ₹6.5L/yr)

 

Data Analyst

Experience: 0 – 2 yrs · Hyderabad/Secunderabad  (7 Salaries)
₹ 4,81,483/year

(₹1.0L/yr – ₹7.7L/yr)

 

Course Syllabus in Hyderabad

On a daily basis we talk to companies in the likes of Tata Elxsi and Mahindra to fine tune our curriculum.

Week 1 – Introduction to Basics

STAAD.Pro is used to analyse structures made of a variety of materials, and simulate different loads that structures are subjected to. The STAAD.Pro user interface (UI) has a wide range of design parameters and tools for the development and analysis of both 2D and 3D models. To accurately design and model buildings, it is important for learners to understand the features of the STAAD.Pro UI.

This week will cover

  • User interface (UI) of the software
  • Types of structures
  • Material specifications
  • Support conditions
  • Design parameters
  • Analysis and post processing options available in STAAD.Pro

Week 2 – Modeling of RC Building

Reinforced concrete (RC) is made of cement concrete, and steel bar reinforcements that maximise the tensile strength and ductility of the material. By modelling RC buildings, engineers can understand the components and materials needed, as well as errors in the design that can be reduced before the actual construction phase. As RC buildings are common in the industry, it is important for learners to understand the process of developing them using STAAD.Pro.

This week will cover

  • Steps involved in modelling, designing, and analysing RC structures
  • Structure’s framework
  • Structural elements

Week 3 – Input Generation

The materials, labour, design parameters, components, and other resources that go into the development of a building system are called inputs. These input parameters play a significant role in the behaviour of buildings, and are often specified by industry standards. It is important for learners to know how to input specific parameters on STAAD.Pro when designing a building.

This week will cover

  • Material specifications
  • Assigning supports and constants
  • Design parameters of the model under study.
  • Analysis of buildings according to requirements

Week 4 – Load Generation

When designing a building or any structure, civil engineers consider all the possible loads that could act on a structure into considerations. This includes wind loads, seismic loads, dead loads, live loads, and more. Load combinations occur when there are more than one type of load acting on a building. As all buildings experience loads, it is important for learners to understand how distinct loads are calculated and can be simulated using STAAD.

This week will cover

  • Load cases and load combinations
  • Load calculations
    • Dead load
    • Live load
    • Wind load
  • Applying calculated load to software models

Week 5 – Analysis of the Model

After building models have been developed in the pre-processing step, the results from modelling and analysis can be studied and interpreted in the post-processing step using STAAD.Pro. As the post-processing step is crucial in the workflow of developing buildings, it is important for learners to understand how to interpret results in the post-processing step.

This week will cover

  • Complete analysis of the structure
  • Post-processing results
  • Interpretation of results
  • Extracting shear force diagram (SFD), bending moment diagram (BMD), reactions, and displacements for design purposes

Week 6 – Output Interpretation

The resulting building model will have information regarding displacements, forces, loads, stresses, reactions, and other related factors. These factors can be confirmed using manual calculation sheets, and interpreted for further understanding of the building’s behaviour under different conditions. In addition to designing building models, STAAD.Pro can also be used in the design of individual structural elements that makeup a building. To effectively understand the behaviour of a building, it is important for learners to understand how to interpret output values.

This week will cover

  • Design of structural elements (slab, beam, column, and foundation) using STAAD.Pro
  • Verifying results with manual calculation sheets

Week 7 – Introduction to Steel Structures

Steel structures are common in the construction industry and are used in the design of buildings for their high tensile strength, ductility, stiffness, and toughness. These structures are made of different components connected together. It is important for learners to understand the individual steel components, and how they contribute to the strength and load-bearing capacities of the overall steel structure.

This week will cover

  • Types of steel structures
  • Components in a steel building
    • Rafters
    • Purlins
    • Side wall and end wall girts
    • Column
    • Bay spacing
    • Cladding

Week 8 – Modelling of Steel Building

Steel structures can be modelled using individual steel components on STAAD.Pro. It is important to understand the tools and techniques used in the design and modelling of steel buildings.

This week will cover

  • Study of a steel structure
  • Modelling the structure using the coordinate method

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