Hard Drive Lifespan

Hard Drive Lifespan Explained: How Long Do Drives Last?

Most storage devices have an average lifespan of around 3 to 5 years, but this number varies depending on the type of storage and how it is used.

Traditional HDDs tend to wear out faster due to their moving parts, often failing sooner than SSDs, which last longer under typical workloads. MicroSD cards usually degrade quicker with heavy write cycles.

Several factors can affect this lifespan, including continuous operation, which places constant strain on components; storage conditions, such as temperature, humidity, and physical handling; and failure variability, since not all drives fail at the same rate even within the same model.

Studies on survival rates show that some drives last far beyond the average, while others fail early due to component failures like faulty controllers, motors, or NAND cells. Ultimately, the actual lifespan of a storage device depends on both its technology and the conditions in which it operates.

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Hard Drive Lifespan Chart

To check hard drive speed on Windows 10 and 11, follow these 4 steps:
Capacity MFR/TYPE MODEL DRIVES IN OPERATION LIFETIME DRIVE FAILURES LIFETIME DRIVE DAYS LIFETIME AFR
4TB HGST (Hitachi Global Storage Technologies) HMS5C4040ALE640 0.40%
4TB HGST (Hitachi Global Storage Technologies) HMS5C4040BLE640 0.57%
8TB Seagate ST8000NM000A 0.34%
8TB Seagate ST8000DM002 1.13%
12TB Seagate ST12000NM001G 0.99%
12TB HGST (Hitachi Global Storage Technologies) HUH721212ALN604 0.48%
14TB Toshiba MG07ACA14TA 39,000 1,828 64,800,000 1.03%
14TB Western Digital (WD) WUH721414ALE6L4 8,800 190 13,978,000 0.50%
14TB Seagate ST14000NM000G 11,250 663 17,140,000 1.41%
16TB Toshiba MG08ACA16TA 41,000 858 27,000,000 1.16%
16TB Western Digital (WD) WUH721816ALE6L0 3,070 78 3,848,000 0.74%
16TB Western Digital (WD) WUH721818ALE6L4 26,783 220 21,175,632 0.38%
18TB Seagate Exos X18 (ST18000NM000J) 1.10%
18TB Western Digital (WD) Ultrastar DC HC550 (WUH721818ALE6L4) 0.35%
20TB Seagate Exos X20 (ST20000NM007D) 0.89%
20TB Toshiba MG09ACA20TE 0.65%
22TB Western Digital (WD) Ultrastar DC HC570 0.47%
22TB Seagate Exos X22 (ST22000NM000E) 0.92%

What are the Main Signs of Hard Drive Failure?

There are several warning signs that indicate a hard drive failure rate. Recognizing these symptoms early can help you back up important data before the drive stops working completely.

The 13 main signs of a hard drive failure are listed below.

  1. Unusual Mechanical Noises
  2. Drive Not Recognized or Disappears in BIOS/OS
  3. SMART Warnings or Failing SMART Attributes
  4. Bad Sectors and Increasing Reallocated Sector Count
  5. Corrupted Files or Disappearing Data
  6. Frequent I/O Errors and Error Messages
  7. Frequent Crashes, Freezes, or BSOD Errors
  8. Very Slow Performance or Long File Access Times
  9. Boot Failure / Operating System Won’t Load
  10. Overheating, Burning Smell, or PCB Damage
  11. Drive Fails to Spin Up or Stuck Spindle Symptoms
  12. Filesystem Mounting Errors or Corrupted Metadata
  13. Sudden Drop in Reported Capacity

1. Unusual Mechanical Noises (Clicking, Grinding, or Whirring)

Unusual noises occur when the hard drive’s read/write heads or spindle motor begin to fail, often producing clicking, grinding, or repetitive ticking sounds. These noises are one of the most recognized and serious signs of mechanical failure. The chance of failure when this happens is very high, and data loss can become permanent if not addressed immediately.

2. Drive Not Recognized or Disappears in BIOS/OS

This sign means that the operating system or BIOS cannot detect the hard drive, or the drive intermittently disconnects during use. It usually points to severe hardware issues such as controller failure, PCB damage, or degraded connections. The likelihood of complete drive failure is high, and urgent backup attempts should be made if the drive reappears even briefly.

3. SMART Warnings or Failing SMART Attributes

SMART (Self-Monitoring, Analysis, and Reporting Technology) tracks drive health metrics like reallocated sectors, pending sectors, and read error rates. When SMART issues a warning, it means the drive has detected a high probability of imminent failure. The chance of failure is very high, as studies show that once attributes cross thresholds, most drives fail within weeks or months.

4. Bad Sectors and Increasing Reallocated Sector Count

Bad sectors are areas of the disk that can no longer reliably store data. A few isolated ones may not mean immediate failure, but a steady increase strongly indicates the drive is degrading. The chance of failure is medium-to-high.

5. Corrupted Files, Disappearing Data, or Scrambled Filenames

When files become unreadable, disappear unexpectedly, or show scrambled names, it usually means the drive is failing to write or read data correctly. Occasional corruption may be recoverable, but consistent issues indicate a medium-to-high chance of failure.

6. Frequent I/O Errors and Error Messages

Frequent I/O errors appear when the system struggles to read from or write to the drive, often resulting in error pop-ups or log entries. While sometimes caused by cables, repeated I/O errors usually mean the disk is deteriorating. The chance of failure is medium-to-high.

7. Frequent Crashes, Freezes, or Blue Screen of Death (BSOD) Related to Disk I/O

When a system freezes, crashes, or shows BSOD errors tied to disk I/O, it suggests the drive is struggling with basic operations. Although software can also cause crashes, repeated disk-related ones are a strong warning sign. The chance of failure is medium.

8. Very Slow Performance or Long File Access Times

Sluggish performance, such as files taking abnormally long to open, often results from the drive retrying reads due to bad sectors. This symptom builds gradually and indicates a medium-to-high chance of eventual failure.

9. Boot Failure / Operating System Won’t Load

If the system cannot load the operating system because the drive’s boot sector or system files are unreadable, it often means severe corruption or physical damage. The likelihood of failure is very high.

10. Overheating, Burning Smell, or Visible PCB Damage

Overheating, burning odors, or visible PCB damage mean electronic components are failing. These symptoms carry a very high chance of total failure, often with little warning.

11. Drive Fails to Spin Up or Shows Stuck Spindle Symptoms

If the drive won’t spin or keeps attempting to with clicking noises, the spindle motor may be stuck or failing. This is a complete mechanical breakdown with an absolute chance of failure.

12. Filesystem Mounting Errors or Corrupted Metadata

When the operating system cannot mount the drive or reports corrupted metadata, it suggests severe corruption or failing sectors. The chance of failure is medium-to-high.

13. Sudden Drop in Reported Capacity or “Unknown” Used Space

If a drive suddenly shows much less available capacity or large “unknown” used space, it usually signals filesystem corruption or failing hardware. The chance of failure is medium-to-high.

How to Calculate the Hard Drive Lifespan in Hours?

Hard drive lifespan can be estimated using the manufacturer’s MTBF (Mean Time Between Failures) or TBW (Terabytes Written, for SSDs) rating.

For example:

  • A drive rated for 30,000 hours MTBF running 8 hours/day ≈ 10.3 years.
  • The same drive running 24/7 ≈ 3.4 years.

    In real-world use, most consumer drives last about 3–5 years, since heat, power cycles, and workload affect durability more than raw MTBF numbers.

How Long Does a Laptop Hard Drive Last?

On average, laptop hard drives last between 3 to 5 years before failure risk rises significantly.

  • Laptop HDDs: Usually 3 to 4 years, since moving parts wear out faster and laptops endure physical shocks.
  • Laptop SSDs: Often 5 to 7 years, with longevity depending on TBW (data written). In most cases, SSDs outlast the laptop itself.

What is the Difference Between Hard Drive Lifespan and Hard Drive Failure Rate?

Hard drive lifespan refers to the expected amount of time a drive can operate before wearing out. Hard drive failure rate refers to the statistical probability of a drive failing within that time frame. Understanding these metrics is also important when considering erasing hard drive data before disposal. lifespan measures time, while failure rate measures risk.