Diploma in Welder (Gas & Electric),Highlights, Entrance Exam, admission, Eligibility, Duration, Selection Criteria, How to Apply, Application Form, Application Process, fee, Syllabus,Salary and Jobs,career opportunities
Here is the information you requested about the Diploma in Welder (Gas & Electric):
Diploma in Welder (Gas & Electric) Highlights:
Diploma in Welder (Gas & Electric) is a vocational program that trains students in welding techniques, equipment operation, and safety procedures.
The program teaches students how to weld using both gas and electric methods and prepares them for careers in industries such as construction, manufacturing, and repair.
The duration of the program is typically one year.
Students who successfully complete the program receive a Diploma in Welder (Gas & Electric).
Diploma in Welder (Gas & Electric) Entrance Exam:
Some institutes may require students to pass an entrance exam to be eligible for admission to the Diploma in Welder (Gas & Electric) program.
The entrance exam may test the student's knowledge of mathematics, physics, and mechanical principles.
Diploma in Welder (Gas & Electric) Admission:
The admission process varies by institute, but typically students must have completed high school or an equivalent qualification to be eligible for admission to the program.
Some institutes may require students to pass an entrance exam or interview before admission.
Diploma in Welder (Gas & Electric) Eligibility:
The eligibility criteria for admission to the Diploma in Welder (Gas & Electric) program vary by institute.
Generally, students must have completed high school or an equivalent qualification to be eligible for admission.
Diploma in Welder (Gas & Electric) Duration:
The duration of the Diploma in Welder (Gas & Electric) program is typically one year.
However, the duration may vary depending on the institute.
Diploma in Welder (Gas & Electric) Selection Criteria:
The selection criteria for admission to the Diploma in Welder (Gas & Electric) program vary by institute.
Generally, students are selected based on their academic record, performance in the entrance exam (if required), and/or interview.
Diploma in Welder (Gas & Electric) How to Apply:
Students can apply for admission to the Diploma in Welder (Gas & Electric) program online or in person at the institute they wish to attend.
The application process varies by institute.
Diploma in Welder (Gas & Electric) Application Form:
The application form for the Diploma in Welder (Gas & Electric) program can usually be downloaded from the institute's website or obtained in person from the institute.
The application form typically requires students to provide their personal and educational details.
Diploma in Welder (Gas & Electric) Application Process:
The application process for the Diploma in Welder (Gas & Electric) program varies by institute.
Generally, students must fill out the application form, attach the required documents, and pay the application fee (if required).
Some institutes may also require students to take an entrance exam or interview.
Diploma in Welder (Gas & Electric) Fee:
The fee for the Diploma in Welder (Gas & Electric) program varies by institute.
The fee may include tuition, registration, and examination fees.
Some institutes may also charge additional fees for equipment and supplies.
Diploma in Welder (Gas & Electric) Syllabus:
The syllabus for the Diploma in Welder (Gas & Electric) program may include the following topics:
Welding safety
Welding processes (gas and electric)
Welding equipment operation
Welding techniques (fillet, groove, etc.)
Welding materials (steel, aluminum, etc.)
Blueprint reading
Mathematics for welding
Welding inspection and quality control
Diploma in Welder (Gas & Electric) Salary and Jobs:
The salary for a Welder (Gas & Electric) varies depending on the job, location, and experience.
According to Payscale, the average salary for a Welder (Gas & Electric) in the United States is $18.32 per hour.
Jobs for Welder (Gas & Electric) can be found in industries such as construction, manufacturing, and repair.
Some job titles for Welder (Gas & Electric) include Welding Technician, Welder Fabricator, and Welding Inspector.
Diploma in Welder (Gas & Electric) Career Opportunities:
Career opportunities for Welder (Gas & Electric) can include positions in construction, manufacturing, and repair industries.
Welder (Gas & Electric) can work
Diploma in WELDER (GAS & ELECTRIC) is a Engineering level course. The diploma course take around one year and its syllabus is divide in two semesters of six month each. Various topics in the course syllabus like like welding skills and metal working techniques used in the exploration of metal sculpture; hot and cold working of steel, oxy-fuel and plasma arc cutting, shielded metal arc welding, weld design and finishing techniques; emphasized through hands on instruction and practice with the opportunity for creative expression and practical application involves in this program. After clearing this program candidates have various job opportunities in the aerospace, defence, ship building, construction and automotive industries on a large scale. Candidates also can go for further higher Diploma/Bachelor’s Degree courses as it enhances their overall qualifications.
Diploma in WELDER (GAS & ELECTRIC) JOB SCOPES:
NOTE:- Students who are not able to submit Original Documents will be provisionally admitted. All necessary original documents should be submitted within working days including day of admission. Otherwise provisional admission will be considered as cancelled.
Given below are few of the important highlights of the program.
Program Full Name | Diploma in Welder (Gas and Electric) |
Program Level | Diploma Courses |
Duration of the Program | 1 Year |
Examination Type | Semester |
Eligibility | 10th with minimum of 50% marks from a recognised board |
Admission Process | Entrance Exam and Merit Based |
Average Program Fee | Upto Rs. 1 Lakh |
Syllabus of Management as prescribed by various Universities and Colleges.
Paper Code | Subjects of Study |
1 | Trade Practical |
2 | Induction training |
3 | Familiarisation with the Institute. |
4 | Importance of trade Training |
5 | Machinery used in the trade. |
6 | Introduction to safety equipment and their use etc. |
7 | Setting up of Arc and gas Apparatus. |
8 | Lighting and setting of flame. |
9 | Striking an arc |
10 | Hack sawing, filing square to dimensions. |
11 | Marking out on MS plate and punching |
12 | Fusion run with and without filler rod on M.S. sheet 1.6 mm thick in flat position by Gas welding Edge joint on M.S sheet 1.6 mm thick in flat position without filler rod by Gas welding |
13 | Straight line beads on M.S. 10 mm thick in flat position by 3.15 mm 9 electrode by arc welding |
14 | Weaved bead on M. S 10mm in flat position by 4 mm 0 electrode in D/H position by arc welding |
15 | Marking and Straight line cutting on MS flats by Gas cutting |
16 | Square butt joint on M.S. sheet. 2 mm thick in flat Position by gas welding. |
17 | Fillet Tee joint on M.S.10 mm in flat position by Arc welding. |
18 | Marking and circular cutting on MS plates 10 mm thick by Gas cutting |
19 | Outside corner joint on M S 2 mm in flat Position by gas welding |
20 | Fillet lap joint on M.S. 10 mm in flat position by Arc welding |
21 | Bevelling of MS flats on MS plates 10 mm thick by Gas cutting |
22 | Fillet Tee joint on M S 2 mm in flat position by gas welding |
23 | Fillet Lap joint on M S 2 mm in flat position by gas welding |
24 | Single Vee Butt joint on M S 12 mm in flat position by arc welding |
25 | Square Butt joint on M.S. sheet. 3 mm in Horizontal vertical position by gas welding |
26 | Straight line beads on M.S. 10 mm in Horizontal vertical position by arc welding |
27 | Outside Corner joint on M S 2 mm in horizontal position by gas welding |
28 | Fillet Lap joint on M.S. 10 mm in horizontal position by arc welding. |
29 | Fillet Tee joint on MS 2 mm in horizontal position by gas welding |
30 | Outside Corner joint on M S 10 mm in horizontal position by arc welding |
31 | Fillet Lap joint on M S 2 mm in horizontal position by gas welding |
32 | Single Vee Butt joint on MS 12 mm in horizontal position by arc welding |
33 | Square Butt joint on M.S. sheet. 3 mm in vertical position by gas welding |
34 | Straight line Beads on M.S. 10 mm in vertical position by arc welding |
35 | Outside Corner joint on MS sheet 2 mm in vertical position by gas welding |
36 | Fillet Lap joint on M.S. 10 mm in vertical position by arc welding |
37 | Fillet Tee joint on M S sheet 2 mm in vertical position by gas welding |
38 | Outside Corner joint on MS plate 10 mm in vertical position by arc welding |
39 | Fillet lap joint on M S sheet 2 mm in vertical position by gas welding. |
40 | Single Vee Butt joint on MS plate12 mm in vertical position by arc welding |
41 | Square Butt joint on M.S. sheet. 3 mm in over head position by gas welding |
42 | Fillet Tee joint on M.S. 6 mm in over head position by Arc welding |
43 | Outside Corner joint on M S sheet 2 mm in over head position by gas welding |
44 | Fillet Lap joint on M.S. plate 10 mm in over head position by arc welding |
45 | Fillet Tee joint on M S sheet2 mm in over head position by gas welding - Single Vee Butt joint on M S plate 10mm in over head position by arc welding |
46 | Square Butt joint on Brass sheet. Sheet 2 mm in flat position by gas welding |
47 | Square Butt joint on M.S. sheet 1.6mm by brazing. |
48 | Tee joint on M.S. sheet 1.6 mm by brazing |
49 | Tee joint on M.S. sheet 1.6 mm by brazingSquare Butt joint on Aluminium sheet. 3 mm in flat position by gas welding |
50 | Bronze welding on cast iron (Single vee butt joint) 6mm by oxy-acetylene process |
51 | Square Butt joint on S.S. sheet. 1.6 mm in flat position by gas welding |
52 | Project Work |
53 | Trade Theory |
54 | General discipline in the Institute |
55 | Elementary First Aid. |
56 | Importance of Welding in Industry |
57 | Safety in Manual |
58 | Metal Arc Welding, Oxy-Acetylene Welding and Cutting. |
59 | Arc and Gas Welding Equipments, tools and accessories |
60 | Various Welding Processes and its applications |
61 | Arc and Gas Welding terms and definitions |
62 | Different process of metal joining bolting, riveting, soldering, brazing, seaming etc. |
63 | Types of welding joints and its applications. Edge preparation and fit up for different thickness. |
64 | Basic electricity applicable to arc welding and related electrical terms & definitions. |
65 | Principle of Manual Metal Arc Welding arc welding |
66 | Oxy-Acetylene Cutting Equipment principles, cutting parameters and applications |
67 | Common gases used for welding, their flame temperatures and uses. |
68 | Chemistry of oxy-acetylene flame. |
69 | Types of oxy-acetylene flames and uses. |
70 | Arc welding power sources-Transformer, Motor Generator set, Rectifier and Inverter type welding machines |
71 | Advantages and disadvantages of A.C. and D.C. welding machines |
72 | Welding positions - flat-horizontal-vertical and over head position. Weld slope and rotation. |
73 | Arc length - types - effects of arc length. |
74 | Polarity and its uses. |
75 | Calcium carbide properties and uses |
76 | Manufacture of calcium carbide |
77 | Acetylene gas Generators and manufacturing methods and properties |
78 | Acetylene gas Purifier, Hydraulic back pressure valve. Charging methods of oxygen and acetylene gases |
79 | Oxygen and Acetylene gas cylinders and color coding for different gas cylinders |
80 | Gas regulators, types and uses. |
81 | Welding and gas cutting torches and types. |
82 | Arc blow - causes and methods to control arc blow. |
83 | Distortion in welding and methods employed to minimize distortion |
84 | Electrode - types - functions of flux, coating factor, sizes of electrode. |
85 | Coding of electrode as per BIS, AWS, and BS. |
86 | Effects of moisture pick up on electrodes and backing. |
87 | Gas welding filler rods, specifications and sizes. Welding techniques - right and leftward methods |
88 | Resistance welding- principle of resistance welding - types and applications. |
89 | Brass - types - properties- uses. |
90 | Copper - types - properties and uses. |
91 | Aluminium - properties- weld ability of aluminium by different welding process. |
92 | Cast iron- types and fusion welding of cast iron and bronze welding of cast iron. |
93 | Stainless steel - types- uses - welds decay and stainless steel welding by gas |
94 | Welding Technique-Right Hand-Left Hand - Explanation |
95 | Classification of steel |
96 | Welding of low, medium and high carbon steel and alloy steels. |
97 | Weldability of metals, importance of pre heating, post heating and maintenance of interpass temperature |
98 | Effects of alloying elements on steel |
99 | Pipe welding - specification of pipes, various types of pipe joints and welding procedure such as up-hill and downhill method |
100 | Pipe welding - specification of pipes, various types of pipe joints and welding procedure such as up-hill and downhill method II |
101 | Trade Practical II |
102 | Depositing bead on M.S (10mm thick) in flat position (1.2mm wire and Dip transfer) |
103 | Fillet weld - Lap joint on M.S (10mm thick) in flat position (1.2mm wire and Dip transfer). |
104 | Fillet weld - Tee joint on M.S (10mm thick) in flat position (1.2mm wire and Dip transfer). |
105 | Fillet weld - corner joint on M.S (10mm thick) in flat position (1.2mm wire and Dip transfer). |
106 | Fillet weld - Lap joint on M.S. (3mm thick) in flat position (0.8 mm wire and Dip transfer). |
107 | Fillet weld - Tee joint on M.S. (3mm thick) in flat position (0.8 mm wire and Dip transfer). |
108 | Fillet weld - corner joint on M.S. (3mm thick) in flat position (0.8 mm wire and Dip transfer). |
109 | Fusion run with and without filler rod on M.S. sheet 1.6 mm thick in flat position by Gas welding Edge joint on M.S sheet 1.6 mm thick in flat position without filler rod by Gas welding II |
110 | Straight line beads on M.S. 10 mm thick in flat position by 3.15 mm 9 electrode by arc welding - Weaved bead on M. S 10mm in flat position by 4 mm 0 electrode in D/H position by arc welding |
111 | Marking and Straight line cutting on MS flats by Gas cutting II |
112 | Square butt joint on M.S. sheet. 2 mm thick in flat Position by gas welding. II |
113 | Marking and circular cutting on MS plates 10 mm thick by Gas cutting II |
114 | Outside corner joint on M S 2 mm in flat Position by gas welding. II |
115 | Bevelling of MS flats on MS plates 10 mm thick by Gas cutting II |
116 | Fillet Tee joint on M S 2 mm in flat position by gas welding II |
117 | Square Butt joint on M.S. sheet. 3 mm in Horizontal vertical position by gas welding II |
118 | Straight line beads on M.S. 10 mm in Horizontal vertical position by arc welding II |
119 | Trade Theory II |
120 | Introduction to CO2 welding -equipment - accessories. |
121 | Description of CO2 welding set with diagram. |
122 | Advantages of CO2 welding over MMAW , limitations and applications |
123 | Process variables and modes of metal transfer - dip or short circuiting transfer, spray transfer (free flight transfer) and globular transfer (intermittent transfer) etc. |
124 | Different process of metal joining bolting, riveting, soldering, brazing, seaming etc. II |
125 | Types of welding joints and its applications. Edge preparation and fit up for different thickness. II |
126 | Basic electricity applicable to arc welding and related electrical terms & definitions. II |
127 | Principle of Manual Metal Arc Welding arc welding. |
Mentioned below are some states in India that offer the program.