Catalog

SSANGYONG 4450109100 ARM ASSY

SSANGYONG 4450109100 ARM ASSY

Product Specifications

Product quality
OEM Equivalent Grade
starstarstar
Wholesale price USD $35.22
Wholesale price CNY ¥238.8
bolt MOQ (Minimal order)
100 pcs
local_shipping Production time
20-35 days
package_2 Shipping Weight:
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SSANGYONG 4450109100
SSANGYONG 4450109004
SSANGYONG 4450109003
SSANGYONG 4450109002
SSANGYONG 4450109001
MILES DB62590
Overview & Operating Principle

The ARM ASSY is a structural suspension linkage rod that connects the wheel carrier or hub assembly to the vehicle body or subframe at a defined geometric angle, constraining the wheel's position in one or more directions while allowing controlled movement in the suspension travel direction. Suspension arms — also called lateral links, trailing arms, toe links, camber links, or traction strut rods depending on their orientation and function in the specific suspension design — are used in multi-link rear suspension systems, MacPherson front suspension lower arm configurations, and double-wishbone designs to define the wheel's precise kinematic path through bump and rebound travel, maintaining the correct camber, toe, and caster relationships between the wheel and the body at all suspension positions. The arm body is typically a pressed steel channel section, a forged steel rod, or a stamped aluminium extrusion, with a rubber-bonded compliance bushing at each end that isolates road vibration and noise from the body while providing controlled compliance in specific directions calibrated to the suspension's intended handling character. The compliance bushing's stiffness characteristics are as important to the suspension's behaviour as the arm's geometric length — a bushing that is too stiff transmits harshness; one that is too soft produces excessive suspension compliance and vague handling.

This unit — SSANGYONG 4450109100 — is manufactured to OEM-equivalent specifications: arm body cross-section and material grade, overall length between bushing centres, bushing bore diameter and compliance direction stiffness, mounting bolt hole size and position at each end, and ball joint taper dimensions where the arm carries an integrated ball joint are matched to the original part. Supplied as a complete assembly with bushings pre-installed. Available wholesale from 35.22 USD, MOQ 100 pcs, production lead time 20-35 days.

Suspension arms fail through rubber bushing deterioration — cracking, delamination from the metal sleeve, and loss of compliance from ozone and age — that produces knocking noises and altered suspension geometry; through physical bending or cracking of the arm body from kerb strikes, severe pothole impacts, or collision damage; and through corrosion perforation of the pressed steel body in road salt environments. A bent arm cannot be straightened reliably — the metal's yield point has been exceeded and the internal stress state is unknown; a bent arm must always be replaced rather than returned to service regardless of how minor the visible deformation appears.

Symptoms & Diagnostics
Knocking or clunking from the rear suspension over rough road surfaces and during low-speed cornering that cannot be attributed to shock absorbers, stabiliser links, or wheel bearings — worn or cracked compliance bushings at the arm mounting points are allowing the arm to knock against the metal sleeve under load; confirm by pressing on the rear body corner while an assistant observes the arm bushings for visible movement.
Rear wheel toe or camber angle that cannot be corrected by alignment adjustment within the available range — a bent arm body has shifted the wheel carrier's position relative to the subframe beyond the geometric correction range of the alignment adjusters; the alignment measures the resulting angle correctly but cannot correct it because the correction requires changing the arm length, not adjusting the bolt positions.
Vehicle pulling to one side under acceleration or braking that persists after alignment confirmation — a rear suspension arm with a failed compliance bushing is allowing the rear wheel to toe or camber dynamically under longitudinal forces; the static alignment is correct but the wheel geometry changes under load in a direction the alignment cannot compensate for.
Vibration through the body or seat at specific road speeds that changes with vehicle load — a compliance bushing that has lost its rubber-to-metal bond is transmitting road vibration directly into the body through the metal sleeve; the resonant frequency of the vibration shifts with vehicle load as the body mass changes the suspension system's natural frequency.
Visible cracking, tearing, or rubber extrusion at the bushing outer rubber visible on underbody inspection — the bushing rubber has deteriorated beyond its ability to isolate and control suspension movement; a bushing showing rubber extrusion out of the metal sleeve has lost its designed compliance and is transmitting abnormal forces through the arm mounting point.
Visible bend or kink in the arm body, or a crack in the arm section detectable by magnetic particle inspection after a collision or severe impact event — any deformation of the arm body requires immediate replacement; a bent arm alters the wheel's static and dynamic geometry in all suspension positions, produces unpredictable handling, and may fracture completely under subsequent normal load cycling.
Logistics & Customs
International HS Code
8708.80
EAEU Customs Code (TN VED)
8708 80 350 0
Typical Net Weight
Country of Manufacture
China
Standard MOQ
100 pcs
Production Lead Time
20-35 days
Always verify the exact 8-digit or 10-digit subheading with your customs broker for the destination country, as tariff schedules and duty rates vary by jurisdiction.
Installation Tips
  1. Mark the existing bolt positions and any eccentric cam bolt settings before removing the arm — photograph all eccentric cam bolt head orientations and any shim positions at the arm mounting points; these settings determine the wheel's current toe and camber angles; returning the new arm's fasteners to the marked positions preserves the current alignment closely enough for safe driving to the alignment shop without causing immediate tyre damage from gross geometry error.
  2. Support the wheel hub and hub carrier with a workshop jack before removing any arm bolts — multi-link rear suspension arms carry the hub in a statically determinate arrangement where removing any single arm allows the hub to move freely in one direction; supporting the hub prevents sudden movement that over-extends the brake hose or ABS sensor wire when an arm is released.
  3. Do not tighten any arm mounting bolt until the vehicle is lowered to ride height with the full vehicle weight on the suspension — tightening compliance bushings with the suspension hanging at full droop pre-stresses the rubber element in a twisted position; when the vehicle is lowered to ride height the bushing is further twisted beyond its design range, reducing compliance and causing the rubber to crack from the pre-stress within a short mileage; always perform final torque with the suspension loaded at ride height by jacking under the hub carrier to simulate laden height.
  4. Verify the arm is the correct specification for the installation position before installation — multi-link suspensions use arms of similar overall appearance but different lengths, bushing compliance directions, and ball joint taper angles at each position; fitting an arm from the wrong position alters the wheel's kinematic path through suspension travel and produces unpredictable dynamic alignment change that a static alignment cannot correct.
  5. Inspect all adjacent arm bushings and ball joints while the arm is accessible — with the hub supported independently, the remaining arms at the same axle position are exposed for inspection; press on each arm and check for compliance bushing play and cracking; an arm being replaced for bushing failure on one end frequently has equally worn bushings at the other end or on adjacent arms of the same age.
  6. Install the new ARM ASSY (SSANGYONG 4450109100), hand-start all fasteners before torquing any, lower the vehicle to ride height and torque all arm bolts to OEM specification with the suspension at laden height, have a four-wheel alignment performed immediately — suspension arm replacement affects toe, camber, and on some designs caster — and confirm all angles are within OEM specification before returning the vehicle to service.
Tools: workshop jack for hub support, torque wrench, socket set including any eccentric cam bolt socket, camera for pre-removal reference photographs, four-wheel alignment equipment.
Frequently Asked Questions
Can the compliance bushings be replaced separately rather than replacing the complete arm assembly?
Separate bushing replacement is technically possible on arms where the bushing is a press-fit sleeve that can be pressed out and a new bushing pressed in using a hydraulic press and correct cup dimensions. However, the labour cost of pressing out the old bushing, cleaning the bore, pressing in the new bushing to the correct depth and orientation, and confirming the new bushing's compliance axis is correctly aligned frequently approaches or exceeds the cost of fitting a complete new arm assembly with bushings already installed at the factory to the correct press depth and compliance direction. Always compare the combined cost of bushing, press tool hire, and labour against a complete arm assembly before recommending bushing-only replacement. ok.parts supplies complete arm assemblies at wholesale MOQ from 35.22 USD per unit.
Is wheel alignment always required after suspension arm replacement, and which angles are affected?
Wheel alignment is mandatory without exception after any suspension arm replacement. Every arm in a multi-link suspension contributes to defining one or more of the wheel's geometric angles — toe, camber, and caster — through the constraint it places on the hub carrier's position. Replacing any arm changes at least one alignment angle from its previous setting even when the new arm is dimensionally identical to the old one, due to assembly tolerance variations and the change in bushing compliance from a fresh bushing versus a compressed old bushing. A full four-wheel alignment must be performed and all adjustable angles set to OEM specification before the vehicle is returned — never return a vehicle after suspension arm replacement without confirmed alignment.
How does the OEM-equivalent aftermarket unit compare to the genuine OEM part?
OEM-equivalent units in this catalogue replicate the current OEM design geometry and material specification. Quality is verified against OEM cross-reference data. When ordering in bulk, confirm with our team that the specification matches the latest OEM revision for your application.
Is white-label or custom packaging available for wholesale orders?
Yes. ok.parts works directly with the manufacturing facility and can accommodate neutral white-label packaging or fully branded packaging with your company logo, part numbers, and barcode. Minimum order quantities and lead times for custom packaging may differ from standard stock. Contact the team via the inquiry form to discuss your specific requirements.
Frequently Replaced Together
PartReason for Combined Replacement
Adjacent Suspension Arms at the Same Corner
Lateral, trailing, toe, or camber link — OEM ref. varies		Multi-link suspension arms at the same corner share identical age, road exposure, and load history — if one arm's bushings have failed, the adjacent arms are at the same bushing wear stage. Replacing all arms at one corner simultaneously during a single hub support and alignment operation eliminates repeat alignment fees within a short period and restores the complete multi-link geometry to new condition in a single service visit.
Wheel Bearing Hub Assembly
OEM ref. varies by axle position		Suspension arm replacement requires partial disassembly of the hub carrier mounting arrangement — this provides clear access to inspect the wheel bearing for play and noise. A wheel bearing approaching end of life should be replaced simultaneously with the arm to avoid a repeat hub carrier disassembly within a short interval, particularly on rear axles where bearing access requires significant suspension disassembly effort.
Subframe Mounting Bolt Set
Application-specific high-strength bolts		Suspension arm mounting bolts at the subframe and body attachment points are frequently single-use stretch bolts or bolts with specific torque-to-yield tightening requirements that cannot be reliably retorqued after removal. Always replace all mounting bolts removed during arm replacement with new bolts of the correct grade and specification — reusing a stretch bolt that has already yielded provides less than its rated clamping force regardless of the torque wrench reading.