AISI 3335 Nickel Chromium Steel Chemical Composition, Grade, Table and Online Pdf
AISI 3335 is a nickel-chromium steel known to produce very good mechanical properties and high resistance to corrosion. Its chemical conformation normally has 0.33% carbon, 1.65% nickel, 0.89% chromium, 0.20% molybdenum, and other elements in the smallest fractions. The alloy has increased tensile strength, hardness, and resistance to wear thus makes it a valuable resource for a multitude of purposes, such as gearing, shafts and fasteners. Engineers and metallurgists would refer to a weighty grade table or pdf, at the best of it to get all the information about AISI 3335: its mechanical properties, heat treatment rules, and field of applications. These resources are very useful for engineers who deal with designing of objects that are going to be exposed to high stress or corrosive environments.
AISI 3335 Nickel Chromium Steel Chemical Composition And Grade Table
AISI 3335 is a nickel chromium steel in the family of alloyed steels known for its outstanding breaking strength and anti-corrosive capabilities. Consequently, its chemical allocation may usually include elements like carbon, manganese, silicon, phosphorus, sulfur, chromium, nickel, and molybdenum. This exhibit of steel can withstand the challenges posed by those sectors like aerospace, automotive, and machinery manufacture by offering yawning toughness and abrasion resistance. AISI 3335 offers this unique feature of precise control of its composition which makes it produce constant stable performances in adverse conditions. By its grade table, you will find all the characteristics of necessary for the pieces with certain requirements for engineering.
| Elements | Carbon | Chromium | Manganese | Nickel | Phosphorus | Silicon | Sulphur |
|---|---|---|---|---|---|---|---|
| Min (%) | 0.3 | 1.25 | 0.3 | 3.25 | - | 0.15 | - |
| Max (%) | 0.4 | 1.75 | 0.5 | 3.75 | 0.025 | 0.3 | 0.025 |
Advantages and Disadvantages of AISI 3335 Nickel Chromium Steel
High Toughness: Excellent toughness suitable for impact-resistant applications.
High Fatigue Strength: Resists fatigue failure under cyclic loading conditions.
Good Dimensional Stability: Maintains dimensional stability with temperature changes.
Good Hardenability: Can be heat treated to achieve desired hardness levels.
Advantages:
Limited Availability: Not as readily available as more common steels.
High Cost: More expensive due to nickel and chromium content.
Machining Difficulty: May pose challenges during machining processes.
Brittleness Risk: Can become brittle if not properly heat treated or used in extreme conditions.
Disadvantages:
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