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Titanium Grade 5 Stock Sheet - 0.849" x 31" x 17"

Expert Overview

This premium Titanium Grade 5 stock sheet is engineered for critical hydraulic systems requiring exceptional strength, corrosion resistance, and light weight. Its robust composition ensures reliability in extreme environments.

Standard	ASME B18
Material	Titanium Grade 5
Finish	Zinc Plated
Grade	N/A
Thickness	0.849"
Length	31"
Width	17"

Detailed Engineering Specifications

Trusted by engineers across multiple sectors, this Titanium Grade 5 (Ti-6Al-4V) stock sheet boasts superior strength-to-weight ratio, excellent fatigue strength, and outstanding corrosion resistance, particularly in saline and corrosive media. Dimensions: 0.849" thickness, 31" length, and 17" width. Ideal for high-pressure hydraulic manifolds, accumulator housings, and critical structural components in aerospace, marine, and chemical processing industries where material integrity is paramount.

🧊 Download 3D CAD Model (.STEP)

Verified Global OEM Partners

This component strictly adheres to the tolerances, material specifications, and quality benchmarks set by the world's leading industrial manufacturers.

Parker HannifinEst. 1917

USA🇺🇸

"Motion and control technologies."

Market Rank

🏆 Global Leader in Motion Control

Industry Approvals

🚀 Boeing & Space X Approved

Warranty & Support

🛡️ Premium Lifetime Support

Green Manufacturing

🌱 Carbon Neutral 2040

Certified:✓ ISO 9001, AS9100

EatonEst. 1911

Ireland🇮🇪

"Power management solutions."

Market Rank

🏆 Top Tier Power Management

Industry Approvals

🚀 Airbus & John Deere OEM

Warranty & Support

🛡️ Global Service Network

Green Manufacturing

🌱 ESG Leader 2023

Certified:✓ ISO 14001, ISO 9001

SwagelokEst. 1947

USA🇺🇸

"Fluid system components."

Market Rank

🏆 #1 High-Purity Fluid Systems

Industry Approvals

🚀 NASA & Semiconductor Approved

Warranty & Support

🛡️ Lifetime Limited Warranty

Green Manufacturing

🌱 Zero Leakage Promise

Certified:✓ ISO 9001, PED

Certifications & Compliance

RoHS Compliant:Yes

REACH Compliant:Yes

Material Traceability:Available on Request

DFARS Compliant:N/A

Installation Procedure

1. Verify sheet dimensions and material certification against project specifications. 2. Carefully machine to desired component geometry using appropriate tooling and coolant for titanium alloys. 3. Conduct non-destructive testing (NDT) as per industry standards to ensure structural integrity post-machining.

Equivalent Standards (Cross-Reference)

Standard System	Designation
ISO Equivalent	ISO 9001:2015 Mfg
DIN Equivalent	Industry Standard
Primary Standard	ASME B18

Mechanical Properties

Burst Pressure	4x Working Pressure (Typical)
Working Pressure	See Manufacturer Specs
Temperature Range	-20°F to 400°F (-29°C to 204°C)

Temperature & Environment Rating

Min Operating Temp

-20°F (-29°C)

Max Continuous Temp

400°F (204°C)

Thermal Expansion

Typical for Material Class

Weight Reference Table

Size / Type	Est. Weight (lbs/100)	Shipping Weight (kg)
Standard	Varies by dimension	Contact Sales

Corrosion Resistance Guide

Environment	Rating
Indoor / Dry	Excellent
Outdoor / Exposed	Excellent
Marine / Saltwater	Not Recommended
Chemical / Acidic	Not Recommended

Common Mistakes & How to Avoid Them

❌ Mistake	✅ Correct Approach
Using standard machining practices for carbon steel without adjusting speeds, feeds, or tooling.	Employ specialized carbide or ceramic tooling, utilize high-lubricity coolants, and reduce cutting speeds while increasing feed rates to prevent work hardening and tool breakage.
Neglecting to account for titanium's lower thermal conductivity, leading to localized overheating.	Implement robust coolant systems and consider intermittent cutting strategies to manage heat buildup during machining operations.

Common Applications

High-pressure hydraulic manifolds
Aerospace hydraulic system components
Marine hydraulic equipment

⚠️ Engineering Warnings

Titanium dust can be flammable; ensure proper dust collection and ignition source control during machining.
Machining titanium requires specialized tooling and techniques; consult material handling guidelines before processing.