Bench Press 1rm Calculator
Free Bench press 1rm Calculator for weightlifting. Enter your stats to get performance metrics and improvement targets.
Formula
1RM = Weight x (1 + Reps / 30) [Epley] | Weight x 36 / (37 - Reps) [Brzycki]
Multiple estimation formulas are averaged for accuracy. The Epley formula adds weight proportional to reps performed. The Brzycki formula uses a linear relationship that becomes undefined above 36 reps. All formulas assume maximal effort on the set and become less accurate above 10 reps.
Worked Examples
Example 1: Estimating 1RM from a 5-Rep Set
Problem: An 80kg male lifter bench presses 100kg for 5 reps. Calculate the estimated 1RM using multiple formulas.
Solution: Epley: 100 x (1 + 5/30) = 116.7kg\nBrzycki: 100 x (36 / (37-5)) = 112.5kg\nLander: (100 x 100) / (101.3 - 2.67 x 5) = 115.6kg\nLombardi: 100 x 5^0.10 = 117.5kg\nOConner: 100 x (1 + 0.025 x 5) = 112.5kg\nWathan: (100 x 100) / (48.8 + 53.8 x e^(-0.075 x 5)) = 115.5kg\nAverage: 115.0kg\nRelative strength: 115/80 = 1.44x BW (Advanced level)
Result: Estimated 1RM: 115.0kg | 1.44x body weight | Advanced level
Example 2: Comparing Two Lifters with Wilks Score
Problem: Lifter A: 75kg male, benches 90kg x 3 reps. Lifter B: 95kg male, benches 110kg x 3 reps. Who has greater relative strength?
Solution: Lifter A 1RM (Brzycki): 90 x (36/(37-3)) = 95.3kg\nRelative: 95.3/75 = 1.27x BW\n\nLifter B 1RM (Brzycki): 110 x (36/(37-3)) = 116.5kg\nRelative: 116.5/95 = 1.23x BW\n\nLifter A has higher relative strength despite lower absolute weight.
Result: Lifter A: 95.3kg (1.27x BW) vs Lifter B: 116.5kg (1.23x BW) - Lifter A relatively stronger
Frequently Asked Questions
What is a one-rep max and why does it matter for bench press?
A one-rep max, or 1RM, is the maximum amount of weight you can lift for a single repetition with proper form on a given exercise. For the bench press, knowing your 1RM is essential because it serves as the foundation for programming training loads across virtually every strength training methodology. Coaches and programs prescribe weights as percentages of your 1RM, so without knowing this number, you cannot accurately follow percentage-based programs like 5/3/1, Sheiko, or Smolov. Additionally, your bench press 1RM serves as a benchmark for tracking progress over time, comparing your strength to standardized tables, and setting competition goals if you compete in powerlifting. Rather than testing an actual 1RM frequently, which carries injury risk, estimation formulas allow you to predict your max from a submaximal effort.
How often should I test my bench press one-rep max?
For most lifters, directly testing a true one-rep max should be done no more than every 8 to 12 weeks, typically at the end of a training cycle or before a competition. Frequent maximal testing carries injury risk because the bench press places significant stress on the shoulders, pectoral muscles, and their tendons when under maximum load. However, you can estimate your 1RM much more frequently by performing a heavy set of 2 to 5 reps every 3 to 4 weeks and using estimation formulas. Velocity-based training offers another option where you can track your estimated 1RM daily by monitoring bar speed at submaximal loads without the fatigue and injury risk of true maximal attempts. Competitive powerlifters typically plan their max attempts around competition schedules, peaking every 3 to 4 months.
What is considered a good bench press relative to body weight?
Bench press strength standards are typically expressed as a ratio of your one-rep max to your body weight, and they vary significantly by gender and training experience. For men, a one-to-one body weight bench press ratio is generally considered an intermediate level that takes 1 to 2 years of consistent training to achieve. A 1.25 times body weight bench is advanced, and 1.5 times body weight is considered elite, achieved by only a small percentage of dedicated lifters. For women, a 0.6 times body weight bench is intermediate, 0.85 times body weight is advanced, and 1.1 times body weight is elite. These ratios naturally favor lighter lifters because relative strength tends to decrease as body weight increases. A 70-kilogram lifter benching 105 kilograms at 1.5 times body weight is relatively more impressive than a 120-kilogram lifter benching 180 kilograms.
How can I improve my bench press one-rep max?
Improving your bench press 1RM requires a multi-faceted approach addressing technique, programming, and recovery. Technically, ensure you have a solid arch, proper bar path that moves diagonally from the lower chest to above the shoulders, optimal grip width typically 1.5 times shoulder width, and strong leg drive. For programming, beginners should focus on linear progression by adding 2.5 kilograms per session, intermediates should use weekly periodization with heavy, moderate, and light days, and advanced lifters need block periodization with dedicated accumulation and peaking phases. Include accessory exercises that target common weak points: close-grip bench for lockout strength, pause bench for bottom position strength, and overhead press for shoulder stability. Recovery factors including 7 to 9 hours of sleep, adequate protein intake of 1.6 to 2.2 grams per kilogram, and managing training frequency to allow 48 to 72 hours between bench sessions are equally important.
What is the Wilks score and how is it calculated for bench press?
The Wilks coefficient is a formula used in powerlifting to compare lifts across different body weight classes by normalizing strength relative to body weight using a polynomial equation. It was developed by Robert Wilks and has been used in the International Powerlifting Federation for decades. The Wilks score is calculated by multiplying your lifted weight by a coefficient derived from a fifth-degree polynomial function of your body weight and gender. For example, a 75-kilogram male who bench presses 120 kilograms might have a Wilks score of approximately 85, while a 90-kilogram male who benches 135 kilograms might score approximately 82, indicating that the lighter lifter has relatively superior strength. While primarily used for total competition lifts across squat, bench, and deadlift, individual lift Wilks scores can still provide useful relative strength comparisons between athletes of different sizes.
What are common bench press mistakes that limit one-rep max potential?
Several technical errors commonly limit bench press performance. The most frequent is flared elbows at 90 degrees, which reduces pectoral engagement and increases shoulder injury risk. The optimal elbow angle is 45 to 75 degrees depending on grip width. Insufficient arch is another common issue because a proper thoracic arch reduces the range of motion and puts your shoulders in a safer, more powerful position. Many lifters also neglect leg drive, missing significant force production from the lower body that transfers through the trunk. Poor bar path is critical because the most efficient path curves slightly from the lower chest to above the face at lockout, not straight up and down. Inconsistent grip width, bouncing the bar off the chest, and lifting the hips off the bench are additional errors. Finally, breathing technique matters enormously, as failing to brace with a proper Valsalva maneuver before each rep can cost 5 to 10 percent of your potential force output.